diff --git "a/env-llmeval/lib/python3.10/site-packages/sympy/physics/quantum/tests/test_spin.py" "b/env-llmeval/lib/python3.10/site-packages/sympy/physics/quantum/tests/test_spin.py" new file mode 100644--- /dev/null +++ "b/env-llmeval/lib/python3.10/site-packages/sympy/physics/quantum/tests/test_spin.py" @@ -0,0 +1,4303 @@ +from sympy.concrete.summations import Sum +from sympy.core.function import expand +from sympy.core.numbers import (I, Rational, pi) +from sympy.core.singleton import S +from sympy.core.symbol import symbols +from sympy.functions.elementary.exponential import exp +from sympy.functions.elementary.miscellaneous import sqrt +from sympy.functions.elementary.trigonometric import (cos, sin) +from sympy.matrices.dense import Matrix +from sympy.abc import alpha, beta, gamma, j, m +from sympy.physics.quantum import hbar, represent, Commutator, InnerProduct +from sympy.physics.quantum.qapply import qapply +from sympy.physics.quantum.tensorproduct import TensorProduct +from sympy.physics.quantum.cg import CG +from sympy.physics.quantum.spin import ( + Jx, Jy, Jz, Jplus, Jminus, J2, + JxBra, JyBra, JzBra, + JxKet, JyKet, JzKet, + JxKetCoupled, JyKetCoupled, JzKetCoupled, + couple, uncouple, + Rotation, WignerD +) + +from sympy.testing.pytest import raises, slow + +j1, j2, j3, j4, m1, m2, m3, m4 = symbols('j1:5 m1:5') +j12, j13, j24, j34, j123, j134, mi, mi1, mp = symbols( + 'j12 j13 j24 j34 j123 j134 mi mi1 mp') + + +def test_represent_spin_operators(): + assert represent(Jx) == hbar*Matrix([[0, 1], [1, 0]])/2 + assert represent( + Jx, j=1) == hbar*sqrt(2)*Matrix([[0, 1, 0], [1, 0, 1], [0, 1, 0]])/2 + assert represent(Jy) == hbar*I*Matrix([[0, -1], [1, 0]])/2 + assert represent(Jy, j=1) == hbar*I*sqrt(2)*Matrix([[0, -1, 0], [1, + 0, -1], [0, 1, 0]])/2 + assert represent(Jz) == hbar*Matrix([[1, 0], [0, -1]])/2 + assert represent( + Jz, j=1) == hbar*Matrix([[1, 0, 0], [0, 0, 0], [0, 0, -1]]) + + +def test_represent_spin_states(): + # Jx basis + assert represent(JxKet(S.Half, S.Half), basis=Jx) == Matrix([1, 0]) + assert represent(JxKet(S.Half, Rational(-1, 2)), basis=Jx) == Matrix([0, 1]) + assert represent(JxKet(1, 1), basis=Jx) == Matrix([1, 0, 0]) + assert represent(JxKet(1, 0), basis=Jx) == Matrix([0, 1, 0]) + assert represent(JxKet(1, -1), basis=Jx) == Matrix([0, 0, 1]) + assert represent( + JyKet(S.Half, S.Half), basis=Jx) == Matrix([exp(-I*pi/4), 0]) + assert represent( + JyKet(S.Half, Rational(-1, 2)), basis=Jx) == Matrix([0, exp(I*pi/4)]) + assert represent(JyKet(1, 1), basis=Jx) == Matrix([-I, 0, 0]) + assert represent(JyKet(1, 0), basis=Jx) == Matrix([0, 1, 0]) + assert represent(JyKet(1, -1), basis=Jx) == Matrix([0, 0, I]) + assert represent( + JzKet(S.Half, S.Half), basis=Jx) == sqrt(2)*Matrix([-1, 1])/2 + assert represent( + JzKet(S.Half, Rational(-1, 2)), basis=Jx) == sqrt(2)*Matrix([-1, -1])/2 + assert represent(JzKet(1, 1), basis=Jx) == Matrix([1, -sqrt(2), 1])/2 + assert represent(JzKet(1, 0), basis=Jx) == sqrt(2)*Matrix([1, 0, -1])/2 + assert represent(JzKet(1, -1), basis=Jx) == Matrix([1, sqrt(2), 1])/2 + # Jy basis + assert represent( + JxKet(S.Half, S.Half), basis=Jy) == Matrix([exp(I*pi*Rational(-3, 4)), 0]) + assert represent( + JxKet(S.Half, Rational(-1, 2)), basis=Jy) == Matrix([0, exp(I*pi*Rational(3, 4))]) + assert represent(JxKet(1, 1), basis=Jy) == Matrix([I, 0, 0]) + assert represent(JxKet(1, 0), basis=Jy) == Matrix([0, 1, 0]) + assert represent(JxKet(1, -1), basis=Jy) == Matrix([0, 0, -I]) + assert represent(JyKet(S.Half, S.Half), basis=Jy) == Matrix([1, 0]) + assert represent(JyKet(S.Half, Rational(-1, 2)), basis=Jy) == Matrix([0, 1]) + assert represent(JyKet(1, 1), basis=Jy) == Matrix([1, 0, 0]) + assert represent(JyKet(1, 0), basis=Jy) == Matrix([0, 1, 0]) + assert represent(JyKet(1, -1), basis=Jy) == Matrix([0, 0, 1]) + assert represent( + JzKet(S.Half, S.Half), basis=Jy) == sqrt(2)*Matrix([-1, I])/2 + assert represent( + JzKet(S.Half, Rational(-1, 2)), basis=Jy) == sqrt(2)*Matrix([I, -1])/2 + assert represent(JzKet(1, 1), basis=Jy) == Matrix([1, -I*sqrt(2), -1])/2 + assert represent( + JzKet(1, 0), basis=Jy) == Matrix([-sqrt(2)*I, 0, -sqrt(2)*I])/2 + assert represent(JzKet(1, -1), basis=Jy) == Matrix([-1, -sqrt(2)*I, 1])/2 + # Jz basis + assert represent( + JxKet(S.Half, S.Half), basis=Jz) == sqrt(2)*Matrix([1, 1])/2 + assert represent( + JxKet(S.Half, Rational(-1, 2)), basis=Jz) == sqrt(2)*Matrix([-1, 1])/2 + assert represent(JxKet(1, 1), basis=Jz) == Matrix([1, sqrt(2), 1])/2 + assert represent(JxKet(1, 0), basis=Jz) == sqrt(2)*Matrix([-1, 0, 1])/2 + assert represent(JxKet(1, -1), basis=Jz) == Matrix([1, -sqrt(2), 1])/2 + assert represent( + JyKet(S.Half, S.Half), basis=Jz) == sqrt(2)*Matrix([-1, -I])/2 + assert represent( + JyKet(S.Half, Rational(-1, 2)), basis=Jz) == sqrt(2)*Matrix([-I, -1])/2 + assert represent(JyKet(1, 1), basis=Jz) == Matrix([1, sqrt(2)*I, -1])/2 + assert represent(JyKet(1, 0), basis=Jz) == sqrt(2)*Matrix([I, 0, I])/2 + assert represent(JyKet(1, -1), basis=Jz) == Matrix([-1, sqrt(2)*I, 1])/2 + assert represent(JzKet(S.Half, S.Half), basis=Jz) == Matrix([1, 0]) + assert represent(JzKet(S.Half, Rational(-1, 2)), basis=Jz) == Matrix([0, 1]) + assert represent(JzKet(1, 1), basis=Jz) == Matrix([1, 0, 0]) + assert represent(JzKet(1, 0), basis=Jz) == Matrix([0, 1, 0]) + assert represent(JzKet(1, -1), basis=Jz) == Matrix([0, 0, 1]) + + +def test_represent_uncoupled_states(): + # Jx basis + assert represent(TensorProduct(JxKet(S.Half, S.Half), JxKet(S.Half, S.Half)), basis=Jx) == \ + Matrix([1, 0, 0, 0]) + assert represent(TensorProduct(JxKet(S.Half, S.Half), JxKet(S.Half, Rational(-1, 2))), basis=Jx) == \ + Matrix([0, 1, 0, 0]) + assert represent(TensorProduct(JxKet(S.Half, Rational(-1, 2)), JxKet(S.Half, S.Half)), basis=Jx) == \ + Matrix([0, 0, 1, 0]) + assert represent(TensorProduct(JxKet(S.Half, Rational(-1, 2)), JxKet(S.Half, Rational(-1, 2))), basis=Jx) == \ + Matrix([0, 0, 0, 1]) + assert represent(TensorProduct(JyKet(S.Half, S.Half), JyKet(S.Half, S.Half)), basis=Jx) == \ + Matrix([-I, 0, 0, 0]) + assert represent(TensorProduct(JyKet(S.Half, S.Half), JyKet(S.Half, Rational(-1, 2))), basis=Jx) == \ + Matrix([0, 1, 0, 0]) + assert represent(TensorProduct(JyKet(S.Half, Rational(-1, 2)), JyKet(S.Half, S.Half)), basis=Jx) == \ + Matrix([0, 0, 1, 0]) + assert represent(TensorProduct(JyKet(S.Half, Rational(-1, 2)), JyKet(S.Half, Rational(-1, 2))), basis=Jx) == \ + Matrix([0, 0, 0, I]) + assert represent(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)), basis=Jx) == \ + Matrix([S.Half, Rational(-1, 2), Rational(-1, 2), S.Half]) + assert represent(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), basis=Jx) == \ + Matrix([S.Half, S.Half, Rational(-1, 2), Rational(-1, 2)]) + assert represent(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), basis=Jx) == \ + Matrix([S.Half, Rational(-1, 2), S.Half, Rational(-1, 2)]) + assert represent(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), basis=Jx) == \ + Matrix([S.Half, S.Half, S.Half, S.Half]) + # Jy basis + assert represent(TensorProduct(JxKet(S.Half, S.Half), JxKet(S.Half, S.Half)), basis=Jy) == \ + Matrix([I, 0, 0, 0]) + assert represent(TensorProduct(JxKet(S.Half, S.Half), JxKet(S.Half, Rational(-1, 2))), basis=Jy) == \ + Matrix([0, 1, 0, 0]) + assert represent(TensorProduct(JxKet(S.Half, Rational(-1, 2)), JxKet(S.Half, S.Half)), basis=Jy) == \ + Matrix([0, 0, 1, 0]) + assert represent(TensorProduct(JxKet(S.Half, Rational(-1, 2)), JxKet(S.Half, Rational(-1, 2))), basis=Jy) == \ + Matrix([0, 0, 0, -I]) + assert represent(TensorProduct(JyKet(S.Half, S.Half), JyKet(S.Half, S.Half)), basis=Jy) == \ + Matrix([1, 0, 0, 0]) + assert represent(TensorProduct(JyKet(S.Half, S.Half), JyKet(S.Half, Rational(-1, 2))), basis=Jy) == \ + Matrix([0, 1, 0, 0]) + assert represent(TensorProduct(JyKet(S.Half, Rational(-1, 2)), JyKet(S.Half, S.Half)), basis=Jy) == \ + Matrix([0, 0, 1, 0]) + assert represent(TensorProduct(JyKet(S.Half, Rational(-1, 2)), JyKet(S.Half, Rational(-1, 2))), basis=Jy) == \ + Matrix([0, 0, 0, 1]) + assert represent(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)), basis=Jy) == \ + Matrix([S.Half, -I/2, -I/2, Rational(-1, 2)]) + assert represent(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), basis=Jy) == \ + Matrix([-I/2, S.Half, Rational(-1, 2), -I/2]) + assert represent(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), basis=Jy) == \ + Matrix([-I/2, Rational(-1, 2), S.Half, -I/2]) + assert represent(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), basis=Jy) == \ + Matrix([Rational(-1, 2), -I/2, -I/2, S.Half]) + # Jz basis + assert represent(TensorProduct(JxKet(S.Half, S.Half), JxKet(S.Half, S.Half)), basis=Jz) == \ + Matrix([S.Half, S.Half, S.Half, S.Half]) + assert represent(TensorProduct(JxKet(S.Half, S.Half), JxKet(S.Half, Rational(-1, 2))), basis=Jz) == \ + Matrix([Rational(-1, 2), S.Half, Rational(-1, 2), S.Half]) + assert represent(TensorProduct(JxKet(S.Half, Rational(-1, 2)), JxKet(S.Half, S.Half)), basis=Jz) == \ + Matrix([Rational(-1, 2), Rational(-1, 2), S.Half, S.Half]) + assert represent(TensorProduct(JxKet(S.Half, Rational(-1, 2)), JxKet(S.Half, Rational(-1, 2))), basis=Jz) == \ + Matrix([S.Half, Rational(-1, 2), Rational(-1, 2), S.Half]) + assert represent(TensorProduct(JyKet(S.Half, S.Half), JyKet(S.Half, S.Half)), basis=Jz) == \ + Matrix([S.Half, I/2, I/2, Rational(-1, 2)]) + assert represent(TensorProduct(JyKet(S.Half, S.Half), JyKet(S.Half, Rational(-1, 2))), basis=Jz) == \ + Matrix([I/2, S.Half, Rational(-1, 2), I/2]) + assert represent(TensorProduct(JyKet(S.Half, Rational(-1, 2)), JyKet(S.Half, S.Half)), basis=Jz) == \ + Matrix([I/2, Rational(-1, 2), S.Half, I/2]) + assert represent(TensorProduct(JyKet(S.Half, Rational(-1, 2)), JyKet(S.Half, Rational(-1, 2))), basis=Jz) == \ + Matrix([Rational(-1, 2), I/2, I/2, S.Half]) + assert represent(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)), basis=Jz) == \ + Matrix([1, 0, 0, 0]) + assert represent(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), basis=Jz) == \ + Matrix([0, 1, 0, 0]) + assert represent(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), basis=Jz) == \ + Matrix([0, 0, 1, 0]) + assert represent(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), basis=Jz) == \ + Matrix([0, 0, 0, 1]) + + +def test_represent_coupled_states(): + # Jx basis + assert represent(JxKetCoupled(0, 0, (S.Half, S.Half)), basis=Jx) == \ + Matrix([1, 0, 0, 0]) + assert represent(JxKetCoupled(1, 1, (S.Half, S.Half)), basis=Jx) == \ + Matrix([0, 1, 0, 0]) + assert represent(JxKetCoupled(1, 0, (S.Half, S.Half)), basis=Jx) == \ + Matrix([0, 0, 1, 0]) + assert represent(JxKetCoupled(1, -1, (S.Half, S.Half)), basis=Jx) == \ + Matrix([0, 0, 0, 1]) + assert represent(JyKetCoupled(0, 0, (S.Half, S.Half)), basis=Jx) == \ + Matrix([1, 0, 0, 0]) + assert represent(JyKetCoupled(1, 1, (S.Half, S.Half)), basis=Jx) == \ + Matrix([0, -I, 0, 0]) + assert represent(JyKetCoupled(1, 0, (S.Half, S.Half)), basis=Jx) == \ + Matrix([0, 0, 1, 0]) + assert represent(JyKetCoupled(1, -1, (S.Half, S.Half)), basis=Jx) == \ + Matrix([0, 0, 0, I]) + assert represent(JzKetCoupled(0, 0, (S.Half, S.Half)), basis=Jx) == \ + Matrix([1, 0, 0, 0]) + assert represent(JzKetCoupled(1, 1, (S.Half, S.Half)), basis=Jx) == \ + Matrix([0, S.Half, -sqrt(2)/2, S.Half]) + assert represent(JzKetCoupled(1, 0, (S.Half, S.Half)), basis=Jx) == \ + Matrix([0, sqrt(2)/2, 0, -sqrt(2)/2]) + assert represent(JzKetCoupled(1, -1, (S.Half, S.Half)), basis=Jx) == \ + Matrix([0, S.Half, sqrt(2)/2, S.Half]) + # Jy basis + assert represent(JxKetCoupled(0, 0, (S.Half, S.Half)), basis=Jy) == \ + Matrix([1, 0, 0, 0]) + assert represent(JxKetCoupled(1, 1, (S.Half, S.Half)), basis=Jy) == \ + Matrix([0, I, 0, 0]) + assert represent(JxKetCoupled(1, 0, (S.Half, S.Half)), basis=Jy) == \ + Matrix([0, 0, 1, 0]) + assert represent(JxKetCoupled(1, -1, (S.Half, S.Half)), basis=Jy) == \ + Matrix([0, 0, 0, -I]) + assert represent(JyKetCoupled(0, 0, (S.Half, S.Half)), basis=Jy) == \ + Matrix([1, 0, 0, 0]) + assert represent(JyKetCoupled(1, 1, (S.Half, S.Half)), basis=Jy) == \ + Matrix([0, 1, 0, 0]) + assert represent(JyKetCoupled(1, 0, (S.Half, S.Half)), basis=Jy) == \ + Matrix([0, 0, 1, 0]) + assert represent(JyKetCoupled(1, -1, (S.Half, S.Half)), basis=Jy) == \ + Matrix([0, 0, 0, 1]) + assert represent(JzKetCoupled(0, 0, (S.Half, S.Half)), basis=Jy) == \ + Matrix([1, 0, 0, 0]) + assert represent(JzKetCoupled(1, 1, (S.Half, S.Half)), basis=Jy) == \ + Matrix([0, S.Half, -I*sqrt(2)/2, Rational(-1, 2)]) + assert represent(JzKetCoupled(1, 0, (S.Half, S.Half)), basis=Jy) == \ + Matrix([0, -I*sqrt(2)/2, 0, -I*sqrt(2)/2]) + assert represent(JzKetCoupled(1, -1, (S.Half, S.Half)), basis=Jy) == \ + Matrix([0, Rational(-1, 2), -I*sqrt(2)/2, S.Half]) + # Jz basis + assert represent(JxKetCoupled(0, 0, (S.Half, S.Half)), basis=Jz) == \ + Matrix([1, 0, 0, 0]) + assert represent(JxKetCoupled(1, 1, (S.Half, S.Half)), basis=Jz) == \ + Matrix([0, S.Half, sqrt(2)/2, S.Half]) + assert represent(JxKetCoupled(1, 0, (S.Half, S.Half)), basis=Jz) == \ + Matrix([0, -sqrt(2)/2, 0, sqrt(2)/2]) + assert represent(JxKetCoupled(1, -1, (S.Half, S.Half)), basis=Jz) == \ + Matrix([0, S.Half, -sqrt(2)/2, S.Half]) + assert represent(JyKetCoupled(0, 0, (S.Half, S.Half)), basis=Jz) == \ + Matrix([1, 0, 0, 0]) + assert represent(JyKetCoupled(1, 1, (S.Half, S.Half)), basis=Jz) == \ + Matrix([0, S.Half, I*sqrt(2)/2, Rational(-1, 2)]) + assert represent(JyKetCoupled(1, 0, (S.Half, S.Half)), basis=Jz) == \ + Matrix([0, I*sqrt(2)/2, 0, I*sqrt(2)/2]) + assert represent(JyKetCoupled(1, -1, (S.Half, S.Half)), basis=Jz) == \ + Matrix([0, Rational(-1, 2), I*sqrt(2)/2, S.Half]) + assert represent(JzKetCoupled(0, 0, (S.Half, S.Half)), basis=Jz) == \ + Matrix([1, 0, 0, 0]) + assert represent(JzKetCoupled(1, 1, (S.Half, S.Half)), basis=Jz) == \ + Matrix([0, 1, 0, 0]) + assert represent(JzKetCoupled(1, 0, (S.Half, S.Half)), basis=Jz) == \ + Matrix([0, 0, 1, 0]) + assert represent(JzKetCoupled(1, -1, (S.Half, S.Half)), basis=Jz) == \ + Matrix([0, 0, 0, 1]) + + +def test_represent_rotation(): + assert represent(Rotation(0, pi/2, 0)) == \ + Matrix( + [[WignerD( + S( + 1)/2, S( + 1)/2, S( + 1)/2, 0, pi/2, 0), WignerD( + S.Half, S.Half, Rational(-1, 2), 0, pi/2, 0)], + [WignerD(S.Half, Rational(-1, 2), S.Half, 0, pi/2, 0), WignerD(S.Half, Rational(-1, 2), Rational(-1, 2), 0, pi/2, 0)]]) + assert represent(Rotation(0, pi/2, 0), doit=True) == \ + Matrix([[sqrt(2)/2, -sqrt(2)/2], + [sqrt(2)/2, sqrt(2)/2]]) + + +def test_rewrite_same(): + # Rewrite to same basis + assert JxBra(1, 1).rewrite('Jx') == JxBra(1, 1) + assert JxBra(j, m).rewrite('Jx') == JxBra(j, m) + assert JxKet(1, 1).rewrite('Jx') == JxKet(1, 1) + assert JxKet(j, m).rewrite('Jx') == JxKet(j, m) + + +def test_rewrite_Bra(): + # Numerical + assert JxBra(1, 1).rewrite('Jy') == -I*JyBra(1, 1) + assert JxBra(1, 0).rewrite('Jy') == JyBra(1, 0) + assert JxBra(1, -1).rewrite('Jy') == I*JyBra(1, -1) + assert JxBra(1, 1).rewrite( + 'Jz') == JzBra(1, 1)/2 + JzBra(1, 0)/sqrt(2) + JzBra(1, -1)/2 + assert JxBra( + 1, 0).rewrite('Jz') == -sqrt(2)*JzBra(1, 1)/2 + sqrt(2)*JzBra(1, -1)/2 + assert JxBra(1, -1).rewrite( + 'Jz') == JzBra(1, 1)/2 - JzBra(1, 0)/sqrt(2) + JzBra(1, -1)/2 + assert JyBra(1, 1).rewrite('Jx') == I*JxBra(1, 1) + assert JyBra(1, 0).rewrite('Jx') == JxBra(1, 0) + assert JyBra(1, -1).rewrite('Jx') == -I*JxBra(1, -1) + assert JyBra(1, 1).rewrite( + 'Jz') == JzBra(1, 1)/2 - sqrt(2)*I*JzBra(1, 0)/2 - JzBra(1, -1)/2 + assert JyBra(1, 0).rewrite( + 'Jz') == -sqrt(2)*I*JzBra(1, 1)/2 - sqrt(2)*I*JzBra(1, -1)/2 + assert JyBra(1, -1).rewrite( + 'Jz') == -JzBra(1, 1)/2 - sqrt(2)*I*JzBra(1, 0)/2 + JzBra(1, -1)/2 + assert JzBra(1, 1).rewrite( + 'Jx') == JxBra(1, 1)/2 - sqrt(2)*JxBra(1, 0)/2 + JxBra(1, -1)/2 + assert JzBra( + 1, 0).rewrite('Jx') == sqrt(2)*JxBra(1, 1)/2 - sqrt(2)*JxBra(1, -1)/2 + assert JzBra(1, -1).rewrite( + 'Jx') == JxBra(1, 1)/2 + sqrt(2)*JxBra(1, 0)/2 + JxBra(1, -1)/2 + assert JzBra(1, 1).rewrite( + 'Jy') == JyBra(1, 1)/2 + sqrt(2)*I*JyBra(1, 0)/2 - JyBra(1, -1)/2 + assert JzBra(1, 0).rewrite( + 'Jy') == sqrt(2)*I*JyBra(1, 1)/2 + sqrt(2)*I*JyBra(1, -1)/2 + assert JzBra(1, -1).rewrite( + 'Jy') == -JyBra(1, 1)/2 + sqrt(2)*I*JyBra(1, 0)/2 + JyBra(1, -1)/2 + # Symbolic + assert JxBra(j, m).rewrite('Jy') == Sum( + WignerD(j, mi, m, pi*Rational(3, 2), 0, 0) * JyBra(j, mi), (mi, -j, j)) + assert JxBra(j, m).rewrite('Jz') == Sum( + WignerD(j, mi, m, 0, pi/2, 0) * JzBra(j, mi), (mi, -j, j)) + assert JyBra(j, m).rewrite('Jx') == Sum( + WignerD(j, mi, m, 0, 0, pi/2) * JxBra(j, mi), (mi, -j, j)) + assert JyBra(j, m).rewrite('Jz') == Sum( + WignerD(j, mi, m, pi*Rational(3, 2), -pi/2, pi/2) * JzBra(j, mi), (mi, -j, j)) + assert JzBra(j, m).rewrite('Jx') == Sum( + WignerD(j, mi, m, 0, pi*Rational(3, 2), 0) * JxBra(j, mi), (mi, -j, j)) + assert JzBra(j, m).rewrite('Jy') == Sum( + WignerD(j, mi, m, pi*Rational(3, 2), pi/2, pi/2) * JyBra(j, mi), (mi, -j, j)) + + +def test_rewrite_Ket(): + # Numerical + assert JxKet(1, 1).rewrite('Jy') == I*JyKet(1, 1) + assert JxKet(1, 0).rewrite('Jy') == JyKet(1, 0) + assert JxKet(1, -1).rewrite('Jy') == -I*JyKet(1, -1) + assert JxKet(1, 1).rewrite( + 'Jz') == JzKet(1, 1)/2 + JzKet(1, 0)/sqrt(2) + JzKet(1, -1)/2 + assert JxKet( + 1, 0).rewrite('Jz') == -sqrt(2)*JzKet(1, 1)/2 + sqrt(2)*JzKet(1, -1)/2 + assert JxKet(1, -1).rewrite( + 'Jz') == JzKet(1, 1)/2 - JzKet(1, 0)/sqrt(2) + JzKet(1, -1)/2 + assert JyKet(1, 1).rewrite('Jx') == -I*JxKet(1, 1) + assert JyKet(1, 0).rewrite('Jx') == JxKet(1, 0) + assert JyKet(1, -1).rewrite('Jx') == I*JxKet(1, -1) + assert JyKet(1, 1).rewrite( + 'Jz') == JzKet(1, 1)/2 + sqrt(2)*I*JzKet(1, 0)/2 - JzKet(1, -1)/2 + assert JyKet(1, 0).rewrite( + 'Jz') == sqrt(2)*I*JzKet(1, 1)/2 + sqrt(2)*I*JzKet(1, -1)/2 + assert JyKet(1, -1).rewrite( + 'Jz') == -JzKet(1, 1)/2 + sqrt(2)*I*JzKet(1, 0)/2 + JzKet(1, -1)/2 + assert JzKet(1, 1).rewrite( + 'Jx') == JxKet(1, 1)/2 - sqrt(2)*JxKet(1, 0)/2 + JxKet(1, -1)/2 + assert JzKet( + 1, 0).rewrite('Jx') == sqrt(2)*JxKet(1, 1)/2 - sqrt(2)*JxKet(1, -1)/2 + assert JzKet(1, -1).rewrite( + 'Jx') == JxKet(1, 1)/2 + sqrt(2)*JxKet(1, 0)/2 + JxKet(1, -1)/2 + assert JzKet(1, 1).rewrite( + 'Jy') == JyKet(1, 1)/2 - sqrt(2)*I*JyKet(1, 0)/2 - JyKet(1, -1)/2 + assert JzKet(1, 0).rewrite( + 'Jy') == -sqrt(2)*I*JyKet(1, 1)/2 - sqrt(2)*I*JyKet(1, -1)/2 + assert JzKet(1, -1).rewrite( + 'Jy') == -JyKet(1, 1)/2 - sqrt(2)*I*JyKet(1, 0)/2 + JyKet(1, -1)/2 + # Symbolic + assert JxKet(j, m).rewrite('Jy') == Sum( + WignerD(j, mi, m, pi*Rational(3, 2), 0, 0) * JyKet(j, mi), (mi, -j, j)) + assert JxKet(j, m).rewrite('Jz') == Sum( + WignerD(j, mi, m, 0, pi/2, 0) * JzKet(j, mi), (mi, -j, j)) + assert JyKet(j, m).rewrite('Jx') == Sum( + WignerD(j, mi, m, 0, 0, pi/2) * JxKet(j, mi), (mi, -j, j)) + assert JyKet(j, m).rewrite('Jz') == Sum( + WignerD(j, mi, m, pi*Rational(3, 2), -pi/2, pi/2) * JzKet(j, mi), (mi, -j, j)) + assert JzKet(j, m).rewrite('Jx') == Sum( + WignerD(j, mi, m, 0, pi*Rational(3, 2), 0) * JxKet(j, mi), (mi, -j, j)) + assert JzKet(j, m).rewrite('Jy') == Sum( + WignerD(j, mi, m, pi*Rational(3, 2), pi/2, pi/2) * JyKet(j, mi), (mi, -j, j)) + + +def test_rewrite_uncoupled_state(): + # Numerical + assert TensorProduct(JyKet(1, 1), JxKet( + 1, 1)).rewrite('Jx') == -I*TensorProduct(JxKet(1, 1), JxKet(1, 1)) + assert TensorProduct(JyKet(1, 0), JxKet( + 1, 1)).rewrite('Jx') == TensorProduct(JxKet(1, 0), JxKet(1, 1)) + assert TensorProduct(JyKet(1, -1), JxKet( + 1, 1)).rewrite('Jx') == I*TensorProduct(JxKet(1, -1), JxKet(1, 1)) + assert TensorProduct(JzKet(1, 1), JxKet(1, 1)).rewrite('Jx') == \ + TensorProduct(JxKet(1, -1), JxKet(1, 1))/2 - sqrt(2)*TensorProduct(JxKet( + 1, 0), JxKet(1, 1))/2 + TensorProduct(JxKet(1, 1), JxKet(1, 1))/2 + assert TensorProduct(JzKet(1, 0), JxKet(1, 1)).rewrite('Jx') == \ + -sqrt(2)*TensorProduct(JxKet(1, -1), JxKet(1, 1))/2 + sqrt( + 2)*TensorProduct(JxKet(1, 1), JxKet(1, 1))/2 + assert TensorProduct(JzKet(1, -1), JxKet(1, 1)).rewrite('Jx') == \ + TensorProduct(JxKet(1, -1), JxKet(1, 1))/2 + sqrt(2)*TensorProduct(JxKet(1, 0), JxKet(1, 1))/2 + TensorProduct(JxKet(1, 1), JxKet(1, 1))/2 + assert TensorProduct(JxKet(1, 1), JyKet( + 1, 1)).rewrite('Jy') == I*TensorProduct(JyKet(1, 1), JyKet(1, 1)) + assert TensorProduct(JxKet(1, 0), JyKet( + 1, 1)).rewrite('Jy') == TensorProduct(JyKet(1, 0), JyKet(1, 1)) + assert TensorProduct(JxKet(1, -1), JyKet( + 1, 1)).rewrite('Jy') == -I*TensorProduct(JyKet(1, -1), JyKet(1, 1)) + assert TensorProduct(JzKet(1, 1), JyKet(1, 1)).rewrite('Jy') == \ + -TensorProduct(JyKet(1, -1), JyKet(1, 1))/2 - sqrt(2)*I*TensorProduct(JyKet(1, 0), JyKet(1, 1))/2 + TensorProduct(JyKet(1, 1), JyKet(1, 1))/2 + assert TensorProduct(JzKet(1, 0), JyKet(1, 1)).rewrite('Jy') == \ + -sqrt(2)*I*TensorProduct(JyKet(1, -1), JyKet( + 1, 1))/2 - sqrt(2)*I*TensorProduct(JyKet(1, 1), JyKet(1, 1))/2 + assert TensorProduct(JzKet(1, -1), JyKet(1, 1)).rewrite('Jy') == \ + TensorProduct(JyKet(1, -1), JyKet(1, 1))/2 - sqrt(2)*I*TensorProduct(JyKet(1, 0), JyKet(1, 1))/2 - TensorProduct(JyKet(1, 1), JyKet(1, 1))/2 + assert TensorProduct(JxKet(1, 1), JzKet(1, 1)).rewrite('Jz') == \ + TensorProduct(JzKet(1, -1), JzKet(1, 1))/2 + sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2 + TensorProduct(JzKet(1, 1), JzKet(1, 1))/2 + assert TensorProduct(JxKet(1, 0), JzKet(1, 1)).rewrite('Jz') == \ + sqrt(2)*TensorProduct(JzKet(1, -1), JzKet( + 1, 1))/2 - sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, 1))/2 + assert TensorProduct(JxKet(1, -1), JzKet(1, 1)).rewrite('Jz') == \ + TensorProduct(JzKet(1, -1), JzKet(1, 1))/2 - sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2 + TensorProduct(JzKet(1, 1), JzKet(1, 1))/2 + assert TensorProduct(JyKet(1, 1), JzKet(1, 1)).rewrite('Jz') == \ + -TensorProduct(JzKet(1, -1), JzKet(1, 1))/2 + sqrt(2)*I*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2 + TensorProduct(JzKet(1, 1), JzKet(1, 1))/2 + assert TensorProduct(JyKet(1, 0), JzKet(1, 1)).rewrite('Jz') == \ + sqrt(2)*I*TensorProduct(JzKet(1, -1), JzKet( + 1, 1))/2 + sqrt(2)*I*TensorProduct(JzKet(1, 1), JzKet(1, 1))/2 + assert TensorProduct(JyKet(1, -1), JzKet(1, 1)).rewrite('Jz') == \ + TensorProduct(JzKet(1, -1), JzKet(1, 1))/2 + sqrt(2)*I*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2 - TensorProduct(JzKet(1, 1), JzKet(1, 1))/2 + # Symbolic + assert TensorProduct(JyKet(j1, m1), JxKet(j2, m2)).rewrite('Jy') == \ + TensorProduct(JyKet(j1, m1), Sum( + WignerD(j2, mi, m2, pi*Rational(3, 2), 0, 0) * JyKet(j2, mi), (mi, -j2, j2))) + assert TensorProduct(JzKet(j1, m1), JxKet(j2, m2)).rewrite('Jz') == \ + TensorProduct(JzKet(j1, m1), Sum( + WignerD(j2, mi, m2, 0, pi/2, 0) * JzKet(j2, mi), (mi, -j2, j2))) + assert TensorProduct(JxKet(j1, m1), JyKet(j2, m2)).rewrite('Jx') == \ + TensorProduct(JxKet(j1, m1), Sum( + WignerD(j2, mi, m2, 0, 0, pi/2) * JxKet(j2, mi), (mi, -j2, j2))) + assert TensorProduct(JzKet(j1, m1), JyKet(j2, m2)).rewrite('Jz') == \ + TensorProduct(JzKet(j1, m1), Sum(WignerD( + j2, mi, m2, pi*Rational(3, 2), -pi/2, pi/2) * JzKet(j2, mi), (mi, -j2, j2))) + assert TensorProduct(JxKet(j1, m1), JzKet(j2, m2)).rewrite('Jx') == \ + TensorProduct(JxKet(j1, m1), Sum( + WignerD(j2, mi, m2, 0, pi*Rational(3, 2), 0) * JxKet(j2, mi), (mi, -j2, j2))) + assert TensorProduct(JyKet(j1, m1), JzKet(j2, m2)).rewrite('Jy') == \ + TensorProduct(JyKet(j1, m1), Sum(WignerD( + j2, mi, m2, pi*Rational(3, 2), pi/2, pi/2) * JyKet(j2, mi), (mi, -j2, j2))) + + +def test_rewrite_coupled_state(): + # Numerical + assert JyKetCoupled(0, 0, (S.Half, S.Half)).rewrite('Jx') == \ + JxKetCoupled(0, 0, (S.Half, S.Half)) + assert JyKetCoupled(1, 1, (S.Half, S.Half)).rewrite('Jx') == \ + -I*JxKetCoupled(1, 1, (S.Half, S.Half)) + assert JyKetCoupled(1, 0, (S.Half, S.Half)).rewrite('Jx') == \ + JxKetCoupled(1, 0, (S.Half, S.Half)) + assert JyKetCoupled(1, -1, (S.Half, S.Half)).rewrite('Jx') == \ + I*JxKetCoupled(1, -1, (S.Half, S.Half)) + assert JzKetCoupled(0, 0, (S.Half, S.Half)).rewrite('Jx') == \ + JxKetCoupled(0, 0, (S.Half, S.Half)) + assert JzKetCoupled(1, 1, (S.Half, S.Half)).rewrite('Jx') == \ + JxKetCoupled(1, 1, (S.Half, S.Half))/2 - sqrt(2)*JxKetCoupled(1, 0, ( + S.Half, S.Half))/2 + JxKetCoupled(1, -1, (S.Half, S.Half))/2 + assert JzKetCoupled(1, 0, (S.Half, S.Half)).rewrite('Jx') == \ + sqrt(2)*JxKetCoupled(1, 1, (S( + 1)/2, S.Half))/2 - sqrt(2)*JxKetCoupled(1, -1, (S.Half, S.Half))/2 + assert JzKetCoupled(1, -1, (S.Half, S.Half)).rewrite('Jx') == \ + JxKetCoupled(1, 1, (S.Half, S.Half))/2 + sqrt(2)*JxKetCoupled(1, 0, ( + S.Half, S.Half))/2 + JxKetCoupled(1, -1, (S.Half, S.Half))/2 + assert JxKetCoupled(0, 0, (S.Half, S.Half)).rewrite('Jy') == \ + JyKetCoupled(0, 0, (S.Half, S.Half)) + assert JxKetCoupled(1, 1, (S.Half, S.Half)).rewrite('Jy') == \ + I*JyKetCoupled(1, 1, (S.Half, S.Half)) + assert JxKetCoupled(1, 0, (S.Half, S.Half)).rewrite('Jy') == \ + JyKetCoupled(1, 0, (S.Half, S.Half)) + assert JxKetCoupled(1, -1, (S.Half, S.Half)).rewrite('Jy') == \ + -I*JyKetCoupled(1, -1, (S.Half, S.Half)) + assert JzKetCoupled(0, 0, (S.Half, S.Half)).rewrite('Jy') == \ + JyKetCoupled(0, 0, (S.Half, S.Half)) + assert JzKetCoupled(1, 1, (S.Half, S.Half)).rewrite('Jy') == \ + JyKetCoupled(1, 1, (S.Half, S.Half))/2 - I*sqrt(2)*JyKetCoupled(1, 0, ( + S.Half, S.Half))/2 - JyKetCoupled(1, -1, (S.Half, S.Half))/2 + assert JzKetCoupled(1, 0, (S.Half, S.Half)).rewrite('Jy') == \ + -I*sqrt(2)*JyKetCoupled(1, 1, (S.Half, S.Half))/2 - I*sqrt( + 2)*JyKetCoupled(1, -1, (S.Half, S.Half))/2 + assert JzKetCoupled(1, -1, (S.Half, S.Half)).rewrite('Jy') == \ + -JyKetCoupled(1, 1, (S.Half, S.Half))/2 - I*sqrt(2)*JyKetCoupled(1, 0, (S.Half, S.Half))/2 + JyKetCoupled(1, -1, (S.Half, S.Half))/2 + assert JxKetCoupled(0, 0, (S.Half, S.Half)).rewrite('Jz') == \ + JzKetCoupled(0, 0, (S.Half, S.Half)) + assert JxKetCoupled(1, 1, (S.Half, S.Half)).rewrite('Jz') == \ + JzKetCoupled(1, 1, (S.Half, S.Half))/2 + sqrt(2)*JzKetCoupled(1, 0, ( + S.Half, S.Half))/2 + JzKetCoupled(1, -1, (S.Half, S.Half))/2 + assert JxKetCoupled(1, 0, (S.Half, S.Half)).rewrite('Jz') == \ + -sqrt(2)*JzKetCoupled(1, 1, (S( + 1)/2, S.Half))/2 + sqrt(2)*JzKetCoupled(1, -1, (S.Half, S.Half))/2 + assert JxKetCoupled(1, -1, (S.Half, S.Half)).rewrite('Jz') == \ + JzKetCoupled(1, 1, (S.Half, S.Half))/2 - sqrt(2)*JzKetCoupled(1, 0, ( + S.Half, S.Half))/2 + JzKetCoupled(1, -1, (S.Half, S.Half))/2 + assert JyKetCoupled(0, 0, (S.Half, S.Half)).rewrite('Jz') == \ + JzKetCoupled(0, 0, (S.Half, S.Half)) + assert JyKetCoupled(1, 1, (S.Half, S.Half)).rewrite('Jz') == \ + JzKetCoupled(1, 1, (S.Half, S.Half))/2 + I*sqrt(2)*JzKetCoupled(1, 0, ( + S.Half, S.Half))/2 - JzKetCoupled(1, -1, (S.Half, S.Half))/2 + assert JyKetCoupled(1, 0, (S.Half, S.Half)).rewrite('Jz') == \ + I*sqrt(2)*JzKetCoupled(1, 1, (S.Half, S.Half))/2 + I*sqrt( + 2)*JzKetCoupled(1, -1, (S.Half, S.Half))/2 + assert JyKetCoupled(1, -1, (S.Half, S.Half)).rewrite('Jz') == \ + -JzKetCoupled(1, 1, (S.Half, S.Half))/2 + I*sqrt(2)*JzKetCoupled(1, 0, (S.Half, S.Half))/2 + JzKetCoupled(1, -1, (S.Half, S.Half))/2 + # Symbolic + assert JyKetCoupled(j, m, (j1, j2)).rewrite('Jx') == \ + Sum(WignerD(j, mi, m, 0, 0, pi/2) * JxKetCoupled(j, mi, ( + j1, j2)), (mi, -j, j)) + assert JzKetCoupled(j, m, (j1, j2)).rewrite('Jx') == \ + Sum(WignerD(j, mi, m, 0, pi*Rational(3, 2), 0) * JxKetCoupled(j, mi, ( + j1, j2)), (mi, -j, j)) + assert JxKetCoupled(j, m, (j1, j2)).rewrite('Jy') == \ + Sum(WignerD(j, mi, m, pi*Rational(3, 2), 0, 0) * JyKetCoupled(j, mi, ( + j1, j2)), (mi, -j, j)) + assert JzKetCoupled(j, m, (j1, j2)).rewrite('Jy') == \ + Sum(WignerD(j, mi, m, pi*Rational(3, 2), pi/2, pi/2) * JyKetCoupled(j, + mi, (j1, j2)), (mi, -j, j)) + assert JxKetCoupled(j, m, (j1, j2)).rewrite('Jz') == \ + Sum(WignerD(j, mi, m, 0, pi/2, 0) * JzKetCoupled(j, mi, ( + j1, j2)), (mi, -j, j)) + assert JyKetCoupled(j, m, (j1, j2)).rewrite('Jz') == \ + Sum(WignerD(j, mi, m, pi*Rational(3, 2), -pi/2, pi/2) * JzKetCoupled( + j, mi, (j1, j2)), (mi, -j, j)) + + +def test_innerproducts_of_rewritten_states(): + # Numerical + assert qapply(JxBra(1, 1)*JxKet(1, 1).rewrite('Jy')).doit() == 1 + assert qapply(JxBra(1, 0)*JxKet(1, 0).rewrite('Jy')).doit() == 1 + assert qapply(JxBra(1, -1)*JxKet(1, -1).rewrite('Jy')).doit() == 1 + assert qapply(JxBra(1, 1)*JxKet(1, 1).rewrite('Jz')).doit() == 1 + assert qapply(JxBra(1, 0)*JxKet(1, 0).rewrite('Jz')).doit() == 1 + assert qapply(JxBra(1, -1)*JxKet(1, -1).rewrite('Jz')).doit() == 1 + assert qapply(JyBra(1, 1)*JyKet(1, 1).rewrite('Jx')).doit() == 1 + assert qapply(JyBra(1, 0)*JyKet(1, 0).rewrite('Jx')).doit() == 1 + assert qapply(JyBra(1, -1)*JyKet(1, -1).rewrite('Jx')).doit() == 1 + assert qapply(JyBra(1, 1)*JyKet(1, 1).rewrite('Jz')).doit() == 1 + assert qapply(JyBra(1, 0)*JyKet(1, 0).rewrite('Jz')).doit() == 1 + assert qapply(JyBra(1, -1)*JyKet(1, -1).rewrite('Jz')).doit() == 1 + assert qapply(JyBra(1, 1)*JyKet(1, 1).rewrite('Jz')).doit() == 1 + assert qapply(JyBra(1, 0)*JyKet(1, 0).rewrite('Jz')).doit() == 1 + assert qapply(JyBra(1, -1)*JyKet(1, -1).rewrite('Jz')).doit() == 1 + assert qapply(JzBra(1, 1)*JzKet(1, 1).rewrite('Jy')).doit() == 1 + assert qapply(JzBra(1, 0)*JzKet(1, 0).rewrite('Jy')).doit() == 1 + assert qapply(JzBra(1, -1)*JzKet(1, -1).rewrite('Jy')).doit() == 1 + assert qapply(JxBra(1, 1)*JxKet(1, 0).rewrite('Jy')).doit() == 0 + assert qapply(JxBra(1, 1)*JxKet(1, -1).rewrite('Jy')) == 0 + assert qapply(JxBra(1, 1)*JxKet(1, 0).rewrite('Jz')).doit() == 0 + assert qapply(JxBra(1, 1)*JxKet(1, -1).rewrite('Jz')) == 0 + assert qapply(JyBra(1, 1)*JyKet(1, 0).rewrite('Jx')).doit() == 0 + assert qapply(JyBra(1, 1)*JyKet(1, -1).rewrite('Jx')) == 0 + assert qapply(JyBra(1, 1)*JyKet(1, 0).rewrite('Jz')).doit() == 0 + assert qapply(JyBra(1, 1)*JyKet(1, -1).rewrite('Jz')) == 0 + assert qapply(JzBra(1, 1)*JzKet(1, 0).rewrite('Jx')).doit() == 0 + assert qapply(JzBra(1, 1)*JzKet(1, -1).rewrite('Jx')) == 0 + assert qapply(JzBra(1, 1)*JzKet(1, 0).rewrite('Jy')).doit() == 0 + assert qapply(JzBra(1, 1)*JzKet(1, -1).rewrite('Jy')) == 0 + assert qapply(JxBra(1, 0)*JxKet(1, 1).rewrite('Jy')) == 0 + assert qapply(JxBra(1, 0)*JxKet(1, -1).rewrite('Jy')) == 0 + assert qapply(JxBra(1, 0)*JxKet(1, 1).rewrite('Jz')) == 0 + assert qapply(JxBra(1, 0)*JxKet(1, -1).rewrite('Jz')) == 0 + assert qapply(JyBra(1, 0)*JyKet(1, 1).rewrite('Jx')) == 0 + assert qapply(JyBra(1, 0)*JyKet(1, -1).rewrite('Jx')) == 0 + assert qapply(JyBra(1, 0)*JyKet(1, 1).rewrite('Jz')) == 0 + assert qapply(JyBra(1, 0)*JyKet(1, -1).rewrite('Jz')) == 0 + assert qapply(JzBra(1, 0)*JzKet(1, 1).rewrite('Jx')) == 0 + assert qapply(JzBra(1, 0)*JzKet(1, -1).rewrite('Jx')) == 0 + assert qapply(JzBra(1, 0)*JzKet(1, 1).rewrite('Jy')) == 0 + assert qapply(JzBra(1, 0)*JzKet(1, -1).rewrite('Jy')) == 0 + assert qapply(JxBra(1, -1)*JxKet(1, 1).rewrite('Jy')) == 0 + assert qapply(JxBra(1, -1)*JxKet(1, 0).rewrite('Jy')).doit() == 0 + assert qapply(JxBra(1, -1)*JxKet(1, 1).rewrite('Jz')) == 0 + assert qapply(JxBra(1, -1)*JxKet(1, 0).rewrite('Jz')).doit() == 0 + assert qapply(JyBra(1, -1)*JyKet(1, 1).rewrite('Jx')) == 0 + assert qapply(JyBra(1, -1)*JyKet(1, 0).rewrite('Jx')).doit() == 0 + assert qapply(JyBra(1, -1)*JyKet(1, 1).rewrite('Jz')) == 0 + assert qapply(JyBra(1, -1)*JyKet(1, 0).rewrite('Jz')).doit() == 0 + assert qapply(JzBra(1, -1)*JzKet(1, 1).rewrite('Jx')) == 0 + assert qapply(JzBra(1, -1)*JzKet(1, 0).rewrite('Jx')).doit() == 0 + assert qapply(JzBra(1, -1)*JzKet(1, 1).rewrite('Jy')) == 0 + assert qapply(JzBra(1, -1)*JzKet(1, 0).rewrite('Jy')).doit() == 0 + + +def test_uncouple_2_coupled_states(): + # j1=1/2, j2=1/2 + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( + TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( + TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) ))) + # j1=1/2, j2=1 + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1)) == \ + expand(uncouple( + couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0)) == \ + expand(uncouple( + couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1)) == \ + expand(uncouple( + couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1)) == \ + expand(uncouple( + couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0)) == \ + expand(uncouple( + couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1)) == \ + expand(uncouple( + couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1)) ))) + # j1=1, j2=1 + assert TensorProduct(JzKet(1, 1), JzKet(1, 1)) == \ + expand(uncouple(couple( TensorProduct(JzKet(1, 1), JzKet(1, 1)) ))) + assert TensorProduct(JzKet(1, 1), JzKet(1, 0)) == \ + expand(uncouple(couple( TensorProduct(JzKet(1, 1), JzKet(1, 0)) ))) + assert TensorProduct(JzKet(1, 1), JzKet(1, -1)) == \ + expand(uncouple(couple( TensorProduct(JzKet(1, 1), JzKet(1, -1)) ))) + assert TensorProduct(JzKet(1, 0), JzKet(1, 1)) == \ + expand(uncouple(couple( TensorProduct(JzKet(1, 0), JzKet(1, 1)) ))) + assert TensorProduct(JzKet(1, 0), JzKet(1, 0)) == \ + expand(uncouple(couple( TensorProduct(JzKet(1, 0), JzKet(1, 0)) ))) + assert TensorProduct(JzKet(1, 0), JzKet(1, -1)) == \ + expand(uncouple(couple( TensorProduct(JzKet(1, 0), JzKet(1, -1)) ))) + assert TensorProduct(JzKet(1, -1), JzKet(1, 1)) == \ + expand(uncouple(couple( TensorProduct(JzKet(1, -1), JzKet(1, 1)) ))) + assert TensorProduct(JzKet(1, -1), JzKet(1, 0)) == \ + expand(uncouple(couple( TensorProduct(JzKet(1, -1), JzKet(1, 0)) ))) + assert TensorProduct(JzKet(1, -1), JzKet(1, -1)) == \ + expand(uncouple(couple( TensorProduct(JzKet(1, -1), JzKet(1, -1)) ))) + + +def test_uncouple_3_coupled_states(): + # Default coupling + # j1=1/2, j2=1/2, j3=1/2 + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet( + S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S( + 1)/2, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S( + 1)/2, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S( + 1)/2, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.NegativeOne/ + 2), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) ))) + # j1=1/2, j2=1, j3=1/2 + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct( + JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct( + JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct( + JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct( + JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct( + JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct( + JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct( + JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct( + JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct( + JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct( + JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct( + JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct( + JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) ))) + # Coupling j1+j3=j13, j13+j2=j + # j1=1/2, j2=1/2, j3=1/2 + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet( + S.Half, S.Half), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet( + S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet( + S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet( + S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet( + S.Half, S.Half), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet( + S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet( + S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet( + S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ))) + # j1=1/2, j2=1, j3=1/2 + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S( + 1)/2), JzKet(1, 1), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S( + 1)/2), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S( + 1)/2), JzKet(1, 0), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S( + 1)/2), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S( + 1)/2), JzKet(1, -1), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S( + 1)/2), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S( + -1)/2), JzKet(1, 1), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S( + -1)/2), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S( + -1)/2), JzKet(1, 0), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S( + -1)/2), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S( + -1)/2), JzKet(1, -1), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.NegativeOne/ + 2), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ))) + + +@slow +def test_uncouple_4_coupled_states(): + # j1=1/2, j2=1/2, j3=1/2, j4=1/2 + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet( + S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S( + 1)/2, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S( + 1)/2, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S( + 1)/2, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S( + 1)/2, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S( + 1)/2, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet( + S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S( + 1)/2, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S( + 1)/2, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S( + 1)/2, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S( + 1)/2, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S( + 1)/2, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) ))) + # j1=1/2, j2=1/2, j3=1, j4=1/2 + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), + JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), + JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), + JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), + JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), + JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet( + S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), + JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet( + S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), + JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet( + S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet( + S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet( + S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), + JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), + JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), + JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), + JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), + JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet( + S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), + JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet( + S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), + JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet( + S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet( + S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, S.Half)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet( + S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) ))) + # Couple j1+j3=j13, j2+j4=j24, j13+j24=j + # j1=1/2, j2=1/2, j3=1/2, j4=1/2 + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + # j1=1/2, j2=1/2, j3=1, j4=1/2 + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, S.Half)) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, S.Half)), ((1, 3), (2, 4), (1, 2)) ))) + assert TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) == \ + expand(uncouple(couple( TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (2, 4), (1, 2)) ))) + + +def test_uncouple_2_coupled_states_numerical(): + # j1=1/2, j2=1/2 + assert uncouple(JzKetCoupled(0, 0, (S.Half, S.Half))) == \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)))/2 - \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half))/2 + assert uncouple(JzKetCoupled(1, 1, (S.Half, S.Half))) == \ + TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) + assert uncouple(JzKetCoupled(1, 0, (S.Half, S.Half))) == \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)))/2 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half))/2 + assert uncouple(JzKetCoupled(1, -1, (S.Half, S.Half))) == \ + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) + # j1=1, j2=1/2 + assert uncouple(JzKetCoupled(S.Half, S.Half, (1, S.Half))) == \ + -sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(S.Half, S.Half))/3 + \ + sqrt(6)*TensorProduct(JzKet(1, 1), JzKet(S.Half, Rational(-1, 2)))/3 + assert uncouple(JzKetCoupled(S.Half, Rational(-1, 2), (1, S.Half))) == \ + sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(S.Half, Rational(-1, 2)))/3 - \ + sqrt(6)*TensorProduct(JzKet(1, -1), JzKet(S.Half, S.Half))/3 + assert uncouple(JzKetCoupled(Rational(3, 2), Rational(3, 2), (1, S.Half))) == \ + TensorProduct(JzKet(1, 1), JzKet(S.Half, S.Half)) + assert uncouple(JzKetCoupled(Rational(3, 2), S.Half, (1, S.Half))) == \ + sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(S.Half, Rational(-1, 2)))/3 + \ + sqrt(6)*TensorProduct(JzKet(1, 0), JzKet(S.Half, S.Half))/3 + assert uncouple(JzKetCoupled(Rational(3, 2), Rational(-1, 2), (1, S.Half))) == \ + sqrt(6)*TensorProduct(JzKet(1, 0), JzKet(S.Half, Rational(-1, 2)))/3 + \ + sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(S.Half, S.Half))/3 + assert uncouple(JzKetCoupled(Rational(3, 2), Rational(-3, 2), (1, S.Half))) == \ + TensorProduct(JzKet(1, -1), JzKet(S.Half, Rational(-1, 2))) + # j1=1, j2=1 + assert uncouple(JzKetCoupled(0, 0, (1, 1))) == \ + sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, -1))/3 - \ + sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, 0))/3 + \ + sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 1))/3 + assert uncouple(JzKetCoupled(1, 1, (1, 1))) == \ + sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, 0))/2 - \ + sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2 + assert uncouple(JzKetCoupled(1, 0, (1, 1))) == \ + sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, -1))/2 - \ + sqrt(2)*TensorProduct(JzKet(1, -1), JzKet(1, 1))/2 + assert uncouple(JzKetCoupled(1, -1, (1, 1))) == \ + sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, -1))/2 - \ + sqrt(2)*TensorProduct(JzKet(1, -1), JzKet(1, 0))/2 + assert uncouple(JzKetCoupled(2, 2, (1, 1))) == \ + TensorProduct(JzKet(1, 1), JzKet(1, 1)) + assert uncouple(JzKetCoupled(2, 1, (1, 1))) == \ + sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, 0))/2 + \ + sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2 + assert uncouple(JzKetCoupled(2, 0, (1, 1))) == \ + sqrt(6)*TensorProduct(JzKet(1, 1), JzKet(1, -1))/6 + \ + sqrt(6)*TensorProduct(JzKet(1, 0), JzKet(1, 0))/3 + \ + sqrt(6)*TensorProduct(JzKet(1, -1), JzKet(1, 1))/6 + assert uncouple(JzKetCoupled(2, -1, (1, 1))) == \ + sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, -1))/2 + \ + sqrt(2)*TensorProduct(JzKet(1, -1), JzKet(1, 0))/2 + assert uncouple(JzKetCoupled(2, -2, (1, 1))) == \ + TensorProduct(JzKet(1, -1), JzKet(1, -1)) + + +def test_uncouple_3_coupled_states_numerical(): + # Default coupling + # j1=1/2, j2=1/2, j3=1/2 + assert uncouple(JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half))) == \ + TensorProduct(JzKet( + S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)) + assert uncouple(JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half))) == \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half))/3 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half))/3 + \ + sqrt(3)*TensorProduct(JzKet( + S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)))/3 + assert uncouple(JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half))) == \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half))/3 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)))/3 + \ + sqrt(3)*TensorProduct(JzKet( + S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)))/3 + assert uncouple(JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half))) == \ + TensorProduct(JzKet( + S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))) + # j1=1/2, j2=1/2, j3=1 + assert uncouple(JzKetCoupled(2, 2, (S.Half, S.Half, 1))) == \ + TensorProduct( + JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1)) + assert uncouple(JzKetCoupled(2, 1, (S.Half, S.Half, 1))) == \ + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1))/2 + \ + TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1))/2 + \ + sqrt(2)*TensorProduct( + JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0))/2 + assert uncouple(JzKetCoupled(2, 0, (S.Half, S.Half, 1))) == \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1))/6 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0))/3 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0))/3 + \ + sqrt(6)*TensorProduct( + JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1))/6 + assert uncouple(JzKetCoupled(2, -1, (S.Half, S.Half, 1))) == \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0))/2 + \ + TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1))/2 + \ + TensorProduct( + JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(2, -2, (S.Half, S.Half, 1))) == \ + TensorProduct( + JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1)) + assert uncouple(JzKetCoupled(1, 1, (S.Half, S.Half, 1))) == \ + -TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1))/2 - \ + TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1))/2 + \ + sqrt(2)*TensorProduct( + JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0))/2 + assert uncouple(JzKetCoupled(1, 0, (S.Half, S.Half, 1))) == \ + -sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1))/2 + \ + sqrt(2)*TensorProduct( + JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(1, -1, (S.Half, S.Half, 1))) == \ + -sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0))/2 + \ + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1))/2 + \ + TensorProduct( + JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1))/2 + # j1=1/2, j2=1, j3=1 + assert uncouple(JzKetCoupled(Rational(5, 2), Rational(5, 2), (S.Half, 1, 1))) == \ + TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 1)) + assert uncouple(JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, 1, 1))) == \ + sqrt(5)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))/5 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/5 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), + JzKet(1, 0))/5 + assert uncouple(JzKetCoupled(Rational(5, 2), S.Half, (S.Half, 1, 1))) == \ + sqrt(5)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/5 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/5 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/10 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/5 + \ + sqrt(10)*TensorProduct( + JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1))/10 + assert uncouple(JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, 1, 1))) == \ + sqrt(10)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/10 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/5 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/10 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/5 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), + JzKet(1, -1))/5 + assert uncouple(JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, 1, 1))) == \ + sqrt(10)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/5 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/5 + \ + sqrt(5)*TensorProduct( + JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, -1))/5 + assert uncouple(JzKetCoupled(Rational(5, 2), Rational(-5, 2), (S.Half, 1, 1))) == \ + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, -1)) + assert uncouple(JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, 1, 1))) == \ + -sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))/15 - \ + 2*sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/15 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), + JzKet(1, 0))/5 + assert uncouple(JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1))) == \ + -4*sqrt(5)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/15 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/15 - \ + 2*sqrt(10)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/15 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/15 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), + JzKet(1, -1))/5 + assert uncouple(JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1))) == \ + -sqrt(10)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/5 - \ + sqrt(10)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/15 + \ + 2*sqrt(10)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/15 - \ + sqrt(5)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/15 + \ + 4*sqrt(5)*TensorProduct( + JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/15 + assert uncouple(JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, 1, 1))) == \ + -sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/5 + \ + 2*sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/15 + \ + sqrt(30)*TensorProduct( + JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, -1))/15 + assert uncouple(JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1))) == \ + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/3 - \ + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/3 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/6 - \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/3 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), + JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1))) == \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/2 - \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/3 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/6 - \ + TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/3 + \ + TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/3 + # j1=1, j2=1, j3=1 + assert uncouple(JzKetCoupled(3, 3, (1, 1, 1))) == \ + TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 1)) + assert uncouple(JzKetCoupled(3, 2, (1, 1, 1))) == \ + sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 1))/3 + \ + sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 1))/3 + \ + sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 0))/3 + assert uncouple(JzKetCoupled(3, 1, (1, 1, 1))) == \ + sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1))/15 + \ + 2*sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1))/15 + \ + 2*sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 1))/15 + \ + 2*sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1))/15 + assert uncouple(JzKetCoupled(3, 0, (1, 1, 1))) == \ + sqrt(10)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 1))/10 + \ + sqrt(10)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 0))/10 + \ + sqrt(10)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1))/10 + \ + sqrt(10)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 0))/5 + \ + sqrt(10)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1))/10 + \ + sqrt(10)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 0))/10 + \ + sqrt(10)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, -1))/10 + assert uncouple(JzKetCoupled(3, -1, (1, 1, 1))) == \ + sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1))/15 + \ + 2*sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, -1))/15 + \ + 2*sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 0))/15 + \ + 2*sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1))/15 + \ + sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1))/15 + assert uncouple(JzKetCoupled(3, -2, (1, 1, 1))) == \ + sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 0))/3 + \ + sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, -1))/3 + \ + sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, -1))/3 + assert uncouple(JzKetCoupled(3, -3, (1, 1, 1))) == \ + TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, -1)) + assert uncouple(JzKetCoupled(2, 2, (1, 1, 1))) == \ + -sqrt(6)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 1))/6 - \ + sqrt(6)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 1))/6 + \ + sqrt(6)*TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 0))/3 + assert uncouple(JzKetCoupled(2, 1, (1, 1, 1))) == \ + -sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1))/6 - \ + sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1))/3 + \ + sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 0))/6 - \ + sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 1))/6 + \ + sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0))/6 + \ + sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1))/3 + assert uncouple(JzKetCoupled(2, 0, (1, 1, 1))) == \ + -TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 1))/2 - \ + TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1))/2 + \ + TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1))/2 + \ + TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(2, -1, (1, 1, 1))) == \ + -sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1))/3 - \ + sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0))/6 + \ + sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, -1))/6 - \ + sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 0))/6 + \ + sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1))/3 + \ + sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1))/6 + assert uncouple(JzKetCoupled(2, -2, (1, 1, 1))) == \ + -sqrt(6)*TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 0))/3 + \ + sqrt(6)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, -1))/6 + \ + sqrt(6)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, -1))/6 + assert uncouple(JzKetCoupled(1, 1, (1, 1, 1))) == \ + sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1))/30 + \ + sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1))/15 - \ + sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 0))/10 + \ + sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 1))/30 - \ + sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0))/10 + \ + sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1))/5 + assert uncouple(JzKetCoupled(1, 0, (1, 1, 1))) == \ + sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 1))/10 - \ + sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1))/10 - \ + 2*sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1))/10 - \ + sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, -1))/10 + assert uncouple(JzKetCoupled(1, -1, (1, 1, 1))) == \ + sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1))/5 - \ + sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0))/10 + \ + sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, -1))/30 - \ + sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 0))/10 + \ + sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1))/15 + \ + sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1))/30 + # Defined j13 + # j1=1/2, j2=1/2, j3=1, j13=1/2 + assert uncouple(JzKetCoupled(1, 1, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 1)) )) == \ + -sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1))/3 + \ + sqrt(3)*TensorProduct( + JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0))/3 + assert uncouple(JzKetCoupled(1, 0, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 1)) )) == \ + -sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1))/3 - \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0))/6 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0))/6 + \ + sqrt(3)*TensorProduct( + JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1))/3 + assert uncouple(JzKetCoupled(1, -1, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 1)) )) == \ + -sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0))/3 + \ + sqrt(6)*TensorProduct( + JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1))/3 + # j1=1/2, j2=1, j3=1, j13=1/2 + assert uncouple(JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))))) == \ + -sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))/3 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), + JzKet(1, 0))/3 + assert uncouple(JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))))) == \ + -2*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/3 - \ + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/3 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/3 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), + JzKet(1, -1))/3 + assert uncouple(JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))))) == \ + -sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/3 - \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/3 + \ + TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/3 + \ + 2*TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/3 + assert uncouple(JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))))) == \ + -sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/3 + \ + sqrt(6)*TensorProduct( + JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, -1))/3 + # j1=1, j2=1, j3=1, j13=1 + assert uncouple(JzKetCoupled(2, 2, (1, 1, 1), ((1, 3, 1), (1, 2, 2)))) == \ + -sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 1))/2 + \ + sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 0))/2 + assert uncouple(JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)))) == \ + -TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1))/2 - \ + TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1))/2 + \ + TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0))/2 + \ + TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)))) == \ + -sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 1))/3 - \ + sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 0))/6 - \ + sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1))/6 + \ + sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1))/6 + \ + sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 0))/6 + \ + sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, -1))/3 + assert uncouple(JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)))) == \ + -TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1))/2 - \ + TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0))/2 + \ + TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1))/2 + \ + TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(2, -2, (1, 1, 1), ((1, 3, 1), (1, 2, 2)))) == \ + -sqrt(2)*TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 0))/2 + \ + sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)))) == \ + TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1))/2 - \ + TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1))/2 + \ + TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0))/2 - \ + TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 1)))) == \ + TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 0))/2 - \ + TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1))/2 - \ + TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1))/2 + \ + TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 0))/2 + assert uncouple(JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)))) == \ + -TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1))/2 + \ + TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0))/2 - \ + TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1))/2 + \ + TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1))/2 + + +def test_uncouple_4_coupled_states_numerical(): + # j1=1/2, j2=1/2, j3=1, j4=1, default coupling + assert uncouple(JzKetCoupled(3, 3, (S.Half, S.Half, 1, 1))) == \ + TensorProduct(JzKet( + S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 1)) + assert uncouple(JzKetCoupled(3, 2, (S.Half, S.Half, 1, 1))) == \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 1))/6 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))/6 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/3 + \ + sqrt(3)*TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))/3 + assert uncouple(JzKetCoupled(3, 1, (S.Half, S.Half, 1, 1))) == \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/15 + \ + 2*sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + S.Half), JzKet(1, 1), JzKet(1, -1))/15 + assert uncouple(JzKetCoupled(3, 0, (S.Half, S.Half, 1, 1))) == \ + sqrt(10)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/10 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/10 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/10 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/5 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1))/10 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/10 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/5 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/10 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/10 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + S.Half), JzKet(1, 0), JzKet(1, -1))/10 + assert uncouple(JzKetCoupled(3, -1, (S.Half, S.Half, 1, 1))) == \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/15 + \ + 2*sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/15 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + S.Half), JzKet(1, -1), JzKet(1, -1))/15 + assert uncouple(JzKetCoupled(3, -2, (S.Half, S.Half, 1, 1))) == \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/3 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/3 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, -1))/6 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + Rational(-1, 2)), JzKet(1, -1), JzKet(1, -1))/6 + assert uncouple(JzKetCoupled(3, -3, (S.Half, S.Half, 1, 1))) == \ + TensorProduct(JzKet(S.Half, -S( + 1)/2), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, -1)) + assert uncouple(JzKetCoupled(2, 2, (S.Half, S.Half, 1, 1))) == \ + -sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 1))/6 - \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))/6 - \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/6 + \ + sqrt(6)*TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))/3 + assert uncouple(JzKetCoupled(2, 1, (S.Half, S.Half, 1, 1))) == \ + -sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))/6 - \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/6 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))/12 - \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/6 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/12 - \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/6 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/6 + \ + sqrt(3)*TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1))/3 + assert uncouple(JzKetCoupled(2, 0, (S.Half, S.Half, 1, 1))) == \ + -TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/2 - \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/4 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1))/4 - \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/4 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/4 + \ + TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(2, -1, (S.Half, S.Half, 1, 1))) == \ + -sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/3 - \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/6 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/6 - \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/12 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/6 - \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/12 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/6 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + S.Half), JzKet(1, -1), JzKet(1, -1))/6 + assert uncouple(JzKetCoupled(2, -2, (S.Half, S.Half, 1, 1))) == \ + -sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/3 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/6 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, -1))/6 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + Rational(-1, 2)), JzKet(1, -1), JzKet(1, -1))/6 + assert uncouple(JzKetCoupled(1, 1, (S.Half, S.Half, 1, 1))) == \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))/30 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/30 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))/20 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/30 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/20 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/30 - \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/10 + \ + sqrt(15)*TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1))/5 + assert uncouple(JzKetCoupled(1, 0, (S.Half, S.Half, 1, 1))) == \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/10 - \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/20 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1))/20 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/20 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/20 - \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + S.Half), JzKet(1, 0), JzKet(1, -1))/10 + assert uncouple(JzKetCoupled(1, -1, (S.Half, S.Half, 1, 1))) == \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/5 - \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/10 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/30 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/20 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/30 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/20 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/30 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + S.Half), JzKet(1, -1), JzKet(1, -1))/30 + # j1=1/2, j2=1/2, j3=1, j4=1, j12=1, j34=1 + assert uncouple(JzKetCoupled(2, 2, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 2)))) == \ + -sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/2 + \ + sqrt(2)*TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))/2 + assert uncouple(JzKetCoupled(2, 1, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 2)))) == \ + -sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/4 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))/4 - \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/4 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/4 - \ + TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/2 + \ + TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(2, 0, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 2)))) == \ + -sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/6 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/6 - \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/6 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1))/6 - \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/6 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/6 - \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/6 + \ + sqrt(3)*TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/6 + assert uncouple(JzKetCoupled(2, -1, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 2)))) == \ + -TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/2 + \ + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/2 - \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/4 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/4 - \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/4 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/4 + assert uncouple(JzKetCoupled(2, -2, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 2)))) == \ + -sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/2 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, + Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(1, 1, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 1)))) == \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/4 - \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))/4 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/4 - \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/4 - \ + TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/2 + \ + TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(1, 0, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 1)))) == \ + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/2 - \ + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/2 - \ + TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/2 + \ + TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(1, -1, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 1)))) == \ + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/2 - \ + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/2 - \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/4 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/4 - \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/4 + \ + sqrt(2)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/4 + # j1=1/2, j2=1/2, j3=1, j4=1, j12=1, j34=2 + assert uncouple(JzKetCoupled(3, 3, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \ + TensorProduct(JzKet( + S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 1)) + assert uncouple(JzKetCoupled(3, 2, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 1))/6 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))/6 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/3 + \ + sqrt(3)*TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))/3 + assert uncouple(JzKetCoupled(3, 1, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/15 + \ + 2*sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + S.Half), JzKet(1, 1), JzKet(1, -1))/15 + assert uncouple(JzKetCoupled(3, 0, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \ + sqrt(10)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/10 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/10 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/10 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/5 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1))/10 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/10 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/5 + \ + sqrt(5)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/10 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/10 + \ + sqrt(10)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + S.Half), JzKet(1, 0), JzKet(1, -1))/10 + assert uncouple(JzKetCoupled(3, -1, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/15 + \ + 2*sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/15 + \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/15 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + S.Half), JzKet(1, -1), JzKet(1, -1))/15 + assert uncouple(JzKetCoupled(3, -2, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/3 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/3 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, -1))/6 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + Rational(-1, 2)), JzKet(1, -1), JzKet(1, -1))/6 + assert uncouple(JzKetCoupled(3, -3, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \ + TensorProduct(JzKet(S.Half, -S( + 1)/2), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, -1)) + assert uncouple(JzKetCoupled(2, 2, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 2)))) == \ + -sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 1))/3 - \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))/3 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/6 + \ + sqrt(6)*TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))/6 + assert uncouple(JzKetCoupled(2, 1, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 2)))) == \ + -sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))/3 - \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/12 - \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))/12 - \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/12 - \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/12 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/6 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/3 + \ + sqrt(3)*TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1))/6 + assert uncouple(JzKetCoupled(2, 0, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 2)))) == \ + -TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/2 - \ + TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/2 + \ + TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/2 + \ + TensorProduct(JzKet(S( + 1)/2, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/2 + assert uncouple(JzKetCoupled(2, -1, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 2)))) == \ + -sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/6 - \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/3 - \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/6 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/12 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/12 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/12 + \ + sqrt(6)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/12 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + S.Half), JzKet(1, -1), JzKet(1, -1))/3 + assert uncouple(JzKetCoupled(2, -2, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 2)))) == \ + -sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/6 - \ + sqrt(6)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/6 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, -1))/3 + \ + sqrt(3)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + Rational(-1, 2)), JzKet(1, -1), JzKet(1, -1))/3 + assert uncouple(JzKetCoupled(1, 1, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 1)))) == \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))/5 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))/20 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))/20 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/20 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/20 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/30 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + S.Half), JzKet(1, 1), JzKet(1, -1))/30 + assert uncouple(JzKetCoupled(1, 0, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 1)))) == \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))/10 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))/10 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))/30 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))/15 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1))/30 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/30 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/15 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/30 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/10 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + S.Half), JzKet(1, 0), JzKet(1, -1))/10 + assert uncouple(JzKetCoupled(1, -1, (S.Half, S.Half, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 1)))) == \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))/30 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))/15 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))/30 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))/20 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))/20 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))/20 - \ + sqrt(30)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))/20 + \ + sqrt(15)*TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, + S.Half), JzKet(1, -1), JzKet(1, -1))/5 + + +def test_uncouple_symbolic(): + assert uncouple(JzKetCoupled(j, m, (j1, j2) )) == \ + Sum(CG(j1, m1, j2, m2, j, m) * + TensorProduct(JzKet(j1, m1), JzKet(j2, m2)), + (m1, -j1, j1), (m2, -j2, j2)) + assert uncouple(JzKetCoupled(j, m, (j1, j2, j3) )) == \ + Sum(CG(j1, m1, j2, m2, j1 + j2, m1 + m2) * CG(j1 + j2, m1 + m2, j3, m3, j, m) * + TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3)), + (m1, -j1, j1), (m2, -j2, j2), (m3, -j3, j3)) + assert uncouple(JzKetCoupled(j, m, (j1, j2, j3), ((1, 3, j13), (1, 2, j)) )) == \ + Sum(CG(j1, m1, j3, m3, j13, m1 + m3) * CG(j13, m1 + m3, j2, m2, j, m) * + TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3)), + (m1, -j1, j1), (m2, -j2, j2), (m3, -j3, j3)) + assert uncouple(JzKetCoupled(j, m, (j1, j2, j3, j4) )) == \ + Sum(CG(j1, m1, j2, m2, j1 + j2, m1 + m2) * CG(j1 + j2, m1 + m2, j3, m3, j1 + j2 + j3, m1 + m2 + m3) * CG(j1 + j2 + j3, m1 + m2 + m3, j4, m4, j, m) * + TensorProduct( + JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3), JzKet(j4, m4)), + (m1, -j1, j1), (m2, -j2, j2), (m3, -j3, j3), (m4, -j4, j4)) + assert uncouple(JzKetCoupled(j, m, (j1, j2, j3, j4), ((1, 3, j13), (2, 4, j24), (1, 2, j)) )) == \ + Sum(CG(j1, m1, j3, m3, j13, m1 + m3) * CG(j2, m2, j4, m4, j24, m2 + m4) * CG(j13, m1 + m3, j24, m2 + m4, j, m) * + TensorProduct( + JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3), JzKet(j4, m4)), + (m1, -j1, j1), (m2, -j2, j2), (m3, -j3, j3), (m4, -j4, j4)) + + +def test_couple_2_states(): + # j1=1/2, j2=1/2 + assert JzKetCoupled(0, 0, (S.Half, S.Half)) == \ + expand(couple(uncouple( JzKetCoupled(0, 0, (S.Half, S.Half)) ))) + assert JzKetCoupled(1, 1, (S.Half, S.Half)) == \ + expand(couple(uncouple( JzKetCoupled(1, 1, (S.Half, S.Half)) ))) + assert JzKetCoupled(1, 0, (S.Half, S.Half)) == \ + expand(couple(uncouple( JzKetCoupled(1, 0, (S.Half, S.Half)) ))) + assert JzKetCoupled(1, -1, (S.Half, S.Half)) == \ + expand(couple(uncouple( JzKetCoupled(1, -1, (S.Half, S.Half)) ))) + # j1=1, j2=1/2 + assert JzKetCoupled(S.Half, S.Half, (1, S.Half)) == \ + expand(couple(uncouple( JzKetCoupled(S.Half, S.Half, (1, S.Half)) ))) + assert JzKetCoupled(S.Half, Rational(-1, 2), (1, S.Half)) == \ + expand(couple(uncouple( JzKetCoupled(S.Half, Rational(-1, 2), (1, S.Half)) ))) + assert JzKetCoupled(Rational(3, 2), Rational(3, 2), (1, S.Half)) == \ + expand(couple(uncouple( JzKetCoupled(Rational(3, 2), Rational(3, 2), (1, S.Half)) ))) + assert JzKetCoupled(Rational(3, 2), S.Half, (1, S.Half)) == \ + expand(couple(uncouple( JzKetCoupled(Rational(3, 2), S.Half, (1, S.Half)) ))) + assert JzKetCoupled(Rational(3, 2), Rational(-1, 2), (1, S.Half)) == \ + expand(couple(uncouple( JzKetCoupled(Rational(3, 2), Rational(-1, 2), (1, S.Half)) ))) + assert JzKetCoupled(Rational(3, 2), Rational(-3, 2), (1, S.Half)) == \ + expand(couple(uncouple( JzKetCoupled(Rational(3, 2), Rational(-3, 2), (1, S.Half)) ))) + # j1=1, j2=1 + assert JzKetCoupled(0, 0, (1, 1)) == \ + expand(couple(uncouple( JzKetCoupled(0, 0, (1, 1)) ))) + assert JzKetCoupled(1, 1, (1, 1)) == \ + expand(couple(uncouple( JzKetCoupled(1, 1, (1, 1)) ))) + assert JzKetCoupled(1, 0, (1, 1)) == \ + expand(couple(uncouple( JzKetCoupled(1, 0, (1, 1)) ))) + assert JzKetCoupled(1, -1, (1, 1)) == \ + expand(couple(uncouple( JzKetCoupled(1, -1, (1, 1)) ))) + assert JzKetCoupled(2, 2, (1, 1)) == \ + expand(couple(uncouple( JzKetCoupled(2, 2, (1, 1)) ))) + assert JzKetCoupled(2, 1, (1, 1)) == \ + expand(couple(uncouple( JzKetCoupled(2, 1, (1, 1)) ))) + assert JzKetCoupled(2, 0, (1, 1)) == \ + expand(couple(uncouple( JzKetCoupled(2, 0, (1, 1)) ))) + assert JzKetCoupled(2, -1, (1, 1)) == \ + expand(couple(uncouple( JzKetCoupled(2, -1, (1, 1)) ))) + assert JzKetCoupled(2, -2, (1, 1)) == \ + expand(couple(uncouple( JzKetCoupled(2, -2, (1, 1)) ))) + # j1=1/2, j2=3/2 + assert JzKetCoupled(1, 1, (S.Half, Rational(3, 2))) == \ + expand(couple(uncouple( JzKetCoupled(1, 1, (S.Half, Rational(3, 2))) ))) + assert JzKetCoupled(1, 0, (S.Half, Rational(3, 2))) == \ + expand(couple(uncouple( JzKetCoupled(1, 0, (S.Half, Rational(3, 2))) ))) + assert JzKetCoupled(1, -1, (S.Half, Rational(3, 2))) == \ + expand(couple(uncouple( JzKetCoupled(1, -1, (S.Half, Rational(3, 2))) ))) + assert JzKetCoupled(2, 2, (S.Half, Rational(3, 2))) == \ + expand(couple(uncouple( JzKetCoupled(2, 2, (S.Half, Rational(3, 2))) ))) + assert JzKetCoupled(2, 1, (S.Half, Rational(3, 2))) == \ + expand(couple(uncouple( JzKetCoupled(2, 1, (S.Half, Rational(3, 2))) ))) + assert JzKetCoupled(2, 0, (S.Half, Rational(3, 2))) == \ + expand(couple(uncouple( JzKetCoupled(2, 0, (S.Half, Rational(3, 2))) ))) + assert JzKetCoupled(2, -1, (S.Half, Rational(3, 2))) == \ + expand(couple(uncouple( JzKetCoupled(2, -1, (S.Half, Rational(3, 2))) ))) + assert JzKetCoupled(2, -2, (S.Half, Rational(3, 2))) == \ + expand(couple(uncouple( JzKetCoupled(2, -2, (S.Half, Rational(3, 2))) ))) + + +def test_couple_3_states(): + # Default coupling + # j1=1/2, j2=1/2, j3=1/2 + assert JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half)) == \ + expand(couple(uncouple( + JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half)) ))) + assert JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half)) == \ + expand(couple(uncouple( + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half)) ))) + assert JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half)) ))) + assert JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half)) ))) + assert JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half)) ))) + assert JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half)) ))) + # j1=1/2, j2=1/2, j3=1 + assert JzKetCoupled(0, 0, (S.Half, S.Half, 1)) == \ + expand(couple(uncouple( JzKetCoupled(0, 0, (S.Half, S.Half, 1)) ))) + assert JzKetCoupled(1, 1, (S.Half, S.Half, 1)) == \ + expand(couple(uncouple( JzKetCoupled(1, 1, (S.Half, S.Half, 1)) ))) + assert JzKetCoupled(1, 0, (S.Half, S.Half, 1)) == \ + expand(couple(uncouple( JzKetCoupled(1, 0, (S.Half, S.Half, 1)) ))) + assert JzKetCoupled(1, -1, (S.Half, S.Half, 1)) == \ + expand(couple(uncouple( JzKetCoupled(1, -1, (S.Half, S.Half, 1)) ))) + assert JzKetCoupled(2, 2, (S.Half, S.Half, 1)) == \ + expand(couple(uncouple( JzKetCoupled(2, 2, (S.Half, S.Half, 1)) ))) + assert JzKetCoupled(2, 1, (S.Half, S.Half, 1)) == \ + expand(couple(uncouple( JzKetCoupled(2, 1, (S.Half, S.Half, 1)) ))) + assert JzKetCoupled(2, 0, (S.Half, S.Half, 1)) == \ + expand(couple(uncouple( JzKetCoupled(2, 0, (S.Half, S.Half, 1)) ))) + assert JzKetCoupled(2, -1, (S.Half, S.Half, 1)) == \ + expand(couple(uncouple( JzKetCoupled(2, -1, (S.Half, S.Half, 1)) ))) + assert JzKetCoupled(2, -2, (S.Half, S.Half, 1)) == \ + expand(couple(uncouple( JzKetCoupled(2, -2, (S.Half, S.Half, 1)) ))) + # Couple j1+j3=j13, j13+j2=j + # j1=1/2, j2=1/2, j3=1/2, j13=0 + assert JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half), ((1, 3, 0), (1, 2, S.Half))) == \ + expand(couple(uncouple( JzKetCoupled(S.Half, S.Half, (S.Half, S( + 1)/2, S.Half), ((1, 3, 0), (1, 2, S.Half))) ), ((1, 3), (1, 2)) )) + assert JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half), ((1, 3, 0), (1, 2, S.Half))) == \ + expand(couple(uncouple( JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S( + 1)/2, S.Half), ((1, 3, 0), (1, 2, S.Half))) ), ((1, 3), (1, 2)) )) + # j1=1, j2=1/2, j3=1, j13=1 + assert JzKetCoupled(S.Half, S.Half, (1, S.Half, 1), ((1, 3, 1), (1, 2, S.Half))) == \ + expand(couple(uncouple( JzKetCoupled(S.Half, S.Half, ( + 1, S.Half, 1), ((1, 3, 1), (1, 2, S.Half))) ), ((1, 3), (1, 2)) )) + assert JzKetCoupled(S.Half, Rational(-1, 2), (1, S.Half, 1), ((1, 3, 1), (1, 2, S.Half))) == \ + expand(couple(uncouple( JzKetCoupled(S.Half, Rational(-1, 2), ( + 1, S.Half, 1), ((1, 3, 1), (1, 2, S.Half))) ), ((1, 3), (1, 2)) )) + assert JzKetCoupled(Rational(3, 2), Rational(3, 2), (1, S.Half, 1), ((1, 3, 1), (1, 2, Rational(3, 2)))) == \ + expand(couple(uncouple( JzKetCoupled(Rational(3, 2), Rational(3, 2), ( + 1, S.Half, 1), ((1, 3, 1), (1, 2, Rational(3, 2)))) ), ((1, 3), (1, 2)) )) + assert JzKetCoupled(Rational(3, 2), S.Half, (1, S.Half, 1), ((1, 3, 1), (1, 2, Rational(3, 2)))) == \ + expand(couple(uncouple( JzKetCoupled(Rational(3, 2), S.Half, ( + 1, S.Half, 1), ((1, 3, 1), (1, 2, Rational(3, 2)))) ), ((1, 3), (1, 2)) )) + assert JzKetCoupled(Rational(3, 2), Rational(-1, 2), (1, S.Half, 1), ((1, 3, 1), (1, 2, Rational(3, 2)))) == \ + expand(couple(uncouple( JzKetCoupled(Rational(3, 2), Rational(-1, 2), ( + 1, S.Half, 1), ((1, 3, 1), (1, 2, Rational(3, 2)))) ), ((1, 3), (1, 2)) )) + assert JzKetCoupled(Rational(3, 2), Rational(-3, 2), (1, S.Half, 1), ((1, 3, 1), (1, 2, Rational(3, 2)))) == \ + expand(couple(uncouple( JzKetCoupled(Rational(3, 2), Rational(-3, 2), ( + 1, S.Half, 1), ((1, 3, 1), (1, 2, Rational(3, 2)))) ), ((1, 3), (1, 2)) )) + + +def test_couple_4_states(): + # Default coupling + # j1=1/2, j2=1/2, j3=1/2, j4=1/2 + assert JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half)) == \ + expand(couple( + uncouple( JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half)) ))) + assert JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half)) == \ + expand(couple( + uncouple( JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half)) ))) + assert JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half)) == \ + expand(couple(uncouple( + JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half)) ))) + assert JzKetCoupled(2, 2, (S.Half, S.Half, S.Half, S.Half)) == \ + expand(couple( + uncouple( JzKetCoupled(2, 2, (S.Half, S.Half, S.Half, S.Half)) ))) + assert JzKetCoupled(2, 1, (S.Half, S.Half, S.Half, S.Half)) == \ + expand(couple( + uncouple( JzKetCoupled(2, 1, (S.Half, S.Half, S.Half, S.Half)) ))) + assert JzKetCoupled(2, 0, (S.Half, S.Half, S.Half, S.Half)) == \ + expand(couple( + uncouple( JzKetCoupled(2, 0, (S.Half, S.Half, S.Half, S.Half)) ))) + assert JzKetCoupled(2, -1, (S.Half, S.Half, S.Half, S.Half)) == \ + expand(couple(uncouple( + JzKetCoupled(2, -1, (S.Half, S.Half, S.Half, S.Half)) ))) + assert JzKetCoupled(2, -2, (S.Half, S.Half, S.Half, S.Half)) == \ + expand(couple(uncouple( + JzKetCoupled(2, -2, (S.Half, S.Half, S.Half, S.Half)) ))) + # j1=1/2, j2=1/2, j3=1/2, j4=1 + assert JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1)) == \ + expand(couple(uncouple( + JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1)) ))) + assert JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1)) == \ + expand(couple(uncouple( + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1)) ))) + assert JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1)) ))) + assert JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1)) ))) + assert JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1)) ))) + assert JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1)) ))) + assert JzKetCoupled(Rational(5, 2), Rational(5, 2), (S.Half, S.Half, S.Half, 1)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(5, 2), Rational(5, 2), (S.Half, S.Half, S.Half, 1)) ))) + assert JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1)) ))) + assert JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S.Half, S.Half, 1)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S.Half, S.Half, 1)) ))) + assert JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1)) ))) + assert JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1)) ))) + assert JzKetCoupled(Rational(5, 2), Rational(-5, 2), (S.Half, S.Half, S.Half, 1)) == \ + expand(couple(uncouple( + JzKetCoupled(Rational(5, 2), Rational(-5, 2), (S.Half, S.Half, S.Half, 1)) ))) + # Coupling j1+j3=j13, j2+j4=j24, j13+j24=j + # j1=1/2, j2=1/2, j3=1/2, j4=1/2, j13=1, j24=0 + assert JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 3, 1), (2, 4, 0), (1, 2, 1)) ) == \ + expand(couple(uncouple( JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 3, 1), (2, 4, 0), (1, 2, 1)) ) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 3, 1), (2, 4, 0), (1, 2, 1)) ) == \ + expand(couple(uncouple( JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 3, 1), (2, 4, 0), (1, 2, 1)) ) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 3, 1), (2, 4, 0), (1, 2, 1)) ) == \ + expand(couple(uncouple( JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 3, 1), (2, 4, 0), (1, 2, 1)) ) ), ((1, 3), (2, 4), (1, 2)) )) + # j1=1/2, j2=1/2, j3=1/2, j4=1, j13=1, j24=1/2 + assert JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 3, 1), (2, 4, S.Half), (1, 2, S.Half)) ) == \ + expand(couple(uncouple( JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 3, 1), (2, 4, S.Half), (1, 2, S.Half)) )), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 3, 1), (2, 4, S.Half), (1, 2, S.Half)) ) == \ + expand(couple(uncouple( JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 3, 1), (2, 4, S.Half), (1, 2, S.Half)) ) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 3, 1), (2, 4, S.Half), (1, 2, Rational(3, 2))) ) == \ + expand(couple(uncouple( JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 3, 1), (2, 4, S.Half), (1, 2, Rational(3, 2))) ) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 3, 1), (2, 4, S.Half), (1, 2, Rational(3, 2))) ) == \ + expand(couple(uncouple( JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 3, 1), (2, 4, S.Half), (1, 2, Rational(3, 2))) ) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 3, 1), (2, 4, S.Half), (1, 2, Rational(3, 2))) ) == \ + expand(couple(uncouple( JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 3, 1), (2, 4, S.Half), (1, 2, Rational(3, 2))) ) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 3, 1), (2, 4, S.Half), (1, 2, Rational(3, 2))) ) == \ + expand(couple(uncouple( JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 3, 1), (2, 4, S.Half), (1, 2, Rational(3, 2))) ) ), ((1, 3), (2, 4), (1, 2)) )) + # j1=1/2, j2=1, j3=1/2, j4=1, j13=0, j24=1 + assert JzKetCoupled(1, 1, (S.Half, 1, S.Half, 1), ((1, 3, 0), (2, 4, 1), (1, 2, 1)) ) == \ + expand(couple(uncouple( JzKetCoupled(1, 1, (S.Half, 1, S.Half, 1), ( + (1, 3, 0), (2, 4, 1), (1, 2, 1))) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(1, 0, (S.Half, 1, S.Half, 1), ((1, 3, 0), (2, 4, 1), (1, 2, 1)) ) == \ + expand(couple(uncouple( JzKetCoupled(1, 0, (S.Half, 1, S.Half, 1), ( + (1, 3, 0), (2, 4, 1), (1, 2, 1))) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(1, -1, (S.Half, 1, S.Half, 1), ((1, 3, 0), (2, 4, 1), (1, 2, 1)) ) == \ + expand(couple(uncouple( JzKetCoupled(1, -1, (S.Half, 1, S.Half, 1), ( + (1, 3, 0), (2, 4, 1), (1, 2, 1))) ), ((1, 3), (2, 4), (1, 2)) )) + # j1=1/2, j2=1, j3=1/2, j4=1, j13=1, j24=1 + assert JzKetCoupled(0, 0, (S.Half, 1, S.Half, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 0)) ) == \ + expand(couple(uncouple( JzKetCoupled(0, 0, (S.Half, 1, S.Half, 1), ( + (1, 3, 1), (2, 4, 1), (1, 2, 0))) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(1, 1, (S.Half, 1, S.Half, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 1)) ) == \ + expand(couple(uncouple( JzKetCoupled(1, 1, (S.Half, 1, S.Half, 1), ( + (1, 3, 1), (2, 4, 1), (1, 2, 1))) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(1, 0, (S.Half, 1, S.Half, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 1)) ) == \ + expand(couple(uncouple( JzKetCoupled(1, 0, (S.Half, 1, S.Half, 1), ( + (1, 3, 1), (2, 4, 1), (1, 2, 1))) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(1, -1, (S.Half, 1, S.Half, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 1)) ) == \ + expand(couple(uncouple( JzKetCoupled(1, -1, (S.Half, 1, S.Half, 1), ( + (1, 3, 1), (2, 4, 1), (1, 2, 1))) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(2, 2, (S.Half, 1, S.Half, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 2)) ) == \ + expand(couple(uncouple( JzKetCoupled(2, 2, (S.Half, 1, S.Half, 1), ( + (1, 3, 1), (2, 4, 1), (1, 2, 2))) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(2, 1, (S.Half, 1, S.Half, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 2)) ) == \ + expand(couple(uncouple( JzKetCoupled(2, 1, (S.Half, 1, S.Half, 1), ( + (1, 3, 1), (2, 4, 1), (1, 2, 2))) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(2, 0, (S.Half, 1, S.Half, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 2)) ) == \ + expand(couple(uncouple( JzKetCoupled(2, 0, (S.Half, 1, S.Half, 1), ( + (1, 3, 1), (2, 4, 1), (1, 2, 2))) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(2, -1, (S.Half, 1, S.Half, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 2)) ) == \ + expand(couple(uncouple( JzKetCoupled(2, -1, (S.Half, 1, S.Half, 1), ( + (1, 3, 1), (2, 4, 1), (1, 2, 2))) ), ((1, 3), (2, 4), (1, 2)) )) + assert JzKetCoupled(2, -2, (S.Half, 1, S.Half, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 2)) ) == \ + expand(couple(uncouple( JzKetCoupled(2, -2, (S.Half, 1, S.Half, 1), ( + (1, 3, 1), (2, 4, 1), (1, 2, 2))) ), ((1, 3), (2, 4), (1, 2)) )) + + +def test_couple_2_states_numerical(): + # j1=1/2, j2=1/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half))) == \ + JzKetCoupled(1, 1, (S.Half, S.Half)) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)))) == \ + sqrt(2)*JzKetCoupled(0, 0, (S( + 1)/2, S.Half))/2 + sqrt(2)*JzKetCoupled(1, 0, (S.Half, S.Half))/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half))) == \ + -sqrt(2)*JzKetCoupled(0, 0, (S( + 1)/2, S.Half))/2 + sqrt(2)*JzKetCoupled(1, 0, (S.Half, S.Half))/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)))) == \ + JzKetCoupled(1, -1, (S.Half, S.Half)) + # j1=1, j2=1/2 + assert couple(TensorProduct(JzKet(1, 1), JzKet(S.Half, S.Half))) == \ + JzKetCoupled(Rational(3, 2), Rational(3, 2), (1, S.Half)) + assert couple(TensorProduct(JzKet(1, 1), JzKet(S.Half, Rational(-1, 2)))) == \ + sqrt(6)*JzKetCoupled(S.Half, S.Half, (1, S.Half))/3 + sqrt( + 3)*JzKetCoupled(Rational(3, 2), S.Half, (1, S.Half))/3 + assert couple(TensorProduct(JzKet(1, 0), JzKet(S.Half, S.Half))) == \ + -sqrt(3)*JzKetCoupled(S.Half, S.Half, (1, S.Half))/3 + \ + sqrt(6)*JzKetCoupled(Rational(3, 2), S.Half, (1, S.Half))/3 + assert couple(TensorProduct(JzKet(1, 0), JzKet(S.Half, Rational(-1, 2)))) == \ + sqrt(3)*JzKetCoupled(S.Half, Rational(-1, 2), (1, S.Half))/3 + \ + sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (1, S.Half))/3 + assert couple(TensorProduct(JzKet(1, -1), JzKet(S.Half, S.Half))) == \ + -sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (1, S( + 1)/2))/3 + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (1, S.Half))/3 + assert couple(TensorProduct(JzKet(1, -1), JzKet(S.Half, Rational(-1, 2)))) == \ + JzKetCoupled(Rational(3, 2), Rational(-3, 2), (1, S.Half)) + # j1=1, j2=1 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1))) == \ + JzKetCoupled(2, 2, (1, 1)) + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0))) == \ + sqrt(2)*JzKetCoupled( + 1, 1, (1, 1))/2 + sqrt(2)*JzKetCoupled(2, 1, (1, 1))/2 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \ + sqrt(3)*JzKetCoupled(0, 0, (1, 1))/3 + sqrt(2)*JzKetCoupled( + 1, 0, (1, 1))/2 + sqrt(6)*JzKetCoupled(2, 0, (1, 1))/6 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1))) == \ + -sqrt(2)*JzKetCoupled( + 1, 1, (1, 1))/2 + sqrt(2)*JzKetCoupled(2, 1, (1, 1))/2 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0))) == \ + -sqrt(3)*JzKetCoupled( + 0, 0, (1, 1))/3 + sqrt(6)*JzKetCoupled(2, 0, (1, 1))/3 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1))) == \ + sqrt(2)*JzKetCoupled( + 1, -1, (1, 1))/2 + sqrt(2)*JzKetCoupled(2, -1, (1, 1))/2 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1))) == \ + sqrt(3)*JzKetCoupled(0, 0, (1, 1))/3 - sqrt(2)*JzKetCoupled( + 1, 0, (1, 1))/2 + sqrt(6)*JzKetCoupled(2, 0, (1, 1))/6 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0))) == \ + -sqrt(2)*JzKetCoupled( + 1, -1, (1, 1))/2 + sqrt(2)*JzKetCoupled(2, -1, (1, 1))/2 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1))) == \ + JzKetCoupled(2, -2, (1, 1)) + # j1=3/2, j2=1/2 + assert couple(TensorProduct(JzKet(Rational(3, 2), Rational(3, 2)), JzKet(S.Half, S.Half))) == \ + JzKetCoupled(2, 2, (Rational(3, 2), S.Half)) + assert couple(TensorProduct(JzKet(Rational(3, 2), Rational(3, 2)), JzKet(S.Half, Rational(-1, 2)))) == \ + sqrt(3)*JzKetCoupled( + 1, 1, (Rational(3, 2), S.Half))/2 + JzKetCoupled(2, 1, (Rational(3, 2), S.Half))/2 + assert couple(TensorProduct(JzKet(Rational(3, 2), S.Half), JzKet(S.Half, S.Half))) == \ + -JzKetCoupled(1, 1, (S( + 3)/2, S.Half))/2 + sqrt(3)*JzKetCoupled(2, 1, (Rational(3, 2), S.Half))/2 + assert couple(TensorProduct(JzKet(Rational(3, 2), S.Half), JzKet(S.Half, Rational(-1, 2)))) == \ + sqrt(2)*JzKetCoupled(1, 0, (S( + 3)/2, S.Half))/2 + sqrt(2)*JzKetCoupled(2, 0, (Rational(3, 2), S.Half))/2 + assert couple(TensorProduct(JzKet(Rational(3, 2), Rational(-1, 2)), JzKet(S.Half, S.Half))) == \ + -sqrt(2)*JzKetCoupled(1, 0, (S( + 3)/2, S.Half))/2 + sqrt(2)*JzKetCoupled(2, 0, (Rational(3, 2), S.Half))/2 + assert couple(TensorProduct(JzKet(Rational(3, 2), Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)))) == \ + JzKetCoupled(1, -1, (S( + 3)/2, S.Half))/2 + sqrt(3)*JzKetCoupled(2, -1, (Rational(3, 2), S.Half))/2 + assert couple(TensorProduct(JzKet(Rational(3, 2), Rational(-3, 2)), JzKet(S.Half, S.Half))) == \ + -sqrt(3)*JzKetCoupled(1, -1, (Rational(3, 2), S.Half))/2 + \ + JzKetCoupled(2, -1, (Rational(3, 2), S.Half))/2 + assert couple(TensorProduct(JzKet(Rational(3, 2), Rational(-3, 2)), JzKet(S.Half, Rational(-1, 2)))) == \ + JzKetCoupled(2, -2, (Rational(3, 2), S.Half)) + + +def test_couple_3_states_numerical(): + # Default coupling + # j1=1/2,j2=1/2,j3=1/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half))) == \ + JzKetCoupled(Rational(3, 2), S( + 3)/2, (S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2))) ) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)))) == \ + sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half)) )/3 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.One/ + 2), ((1, 2, 1), (1, 3, Rational(3, 2))) )/3 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half))) == \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half)) )/2 - \ + sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half)) )/6 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.One/ + 2), ((1, 2, 1), (1, 3, Rational(3, 2))) )/3 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)))) == \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half)) )/2 + \ + sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half)) )/6 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.One + /2), ((1, 2, 1), (1, 3, Rational(3, 2))) )/3 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half))) == \ + -sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half)) )/2 - \ + sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half)) )/6 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.One/ + 2), ((1, 2, 1), (1, 3, Rational(3, 2))) )/3 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)))) == \ + -sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half)) )/2 + \ + sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half)) )/6 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.One + /2), ((1, 2, 1), (1, 3, Rational(3, 2))) )/3 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half))) == \ + -sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half)) )/3 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.One + /2), ((1, 2, 1), (1, 3, Rational(3, 2))) )/3 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)))) == \ + JzKetCoupled(Rational(3, 2), -S( + 3)/2, (S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2))) ) + # j1=S.Half, j2=S.Half, j3=1 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1))) == \ + JzKetCoupled(2, 2, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 2)) ) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0))) == \ + sqrt(2)*JzKetCoupled(1, 1, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + sqrt(2)*JzKetCoupled( + 2, 1, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1))) == \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 0)) )/3 + \ + sqrt(2)*JzKetCoupled(1, 0, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + sqrt(6)*JzKetCoupled( + 2, 0, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1))) == \ + sqrt(2)*JzKetCoupled(1, 1, (S.Half, S.Half, 1), ((1, 2, 0), (1, 3, 1)) )/2 - \ + JzKetCoupled(1, 1, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(2, 1, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0))) == \ + -sqrt(6)*JzKetCoupled(0, 0, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 0)) )/6 + \ + sqrt(2)*JzKetCoupled(1, 0, (S.Half, S.Half, 1), ((1, 2, 0), (1, 3, 1)) )/2 + \ + sqrt(3)*JzKetCoupled( + 2, 0, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 2)) )/3 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1))) == \ + sqrt(2)*JzKetCoupled(1, -1, (S.Half, S.Half, 1), ((1, 2, 0), (1, 3, 1)) )/2 + \ + JzKetCoupled(1, -1, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(2, -1, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1))) == \ + -sqrt(2)*JzKetCoupled(1, 1, (S.Half, S.Half, 1), ((1, 2, 0), (1, 3, 1)) )/2 - \ + JzKetCoupled(1, 1, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(2, 1, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0))) == \ + -sqrt(6)*JzKetCoupled(0, 0, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 0)) )/6 - \ + sqrt(2)*JzKetCoupled(1, 0, (S.Half, S.Half, 1), ((1, 2, 0), (1, 3, 1)) )/2 + \ + sqrt(3)*JzKetCoupled( + 2, 0, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 2)) )/3 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1))) == \ + -sqrt(2)*JzKetCoupled(1, -1, (S.Half, S.Half, 1), ((1, 2, 0), (1, 3, 1)) )/2 + \ + JzKetCoupled(1, -1, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(2, -1, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1))) == \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 0)) )/3 - \ + sqrt(2)*JzKetCoupled(1, 0, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + sqrt(6)*JzKetCoupled( + 2, 0, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0))) == \ + -sqrt(2)*JzKetCoupled(1, -1, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + sqrt(2)*JzKetCoupled( + 2, -1, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1))) == \ + JzKetCoupled(2, -2, (S.Half, S.Half, 1), ((1, 2, 1), (1, 3, 2)) ) + # j1=S.Half, j2=1, j3=1 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 1))) == \ + JzKetCoupled( + Rational(5, 2), Rational(5, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(5, 2))) ) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0))) == \ + sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(S( + 5)/2, Rational(3, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1))) == \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, S.Half)) )/2 + \ + sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, 1, 1), ((1, + 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1))) == \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + 2*sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(S( + 5)/2, Rational(3, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0))) == \ + JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, S.Half)) )/3 - \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(S( + 5)/2, S.Half, (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1))) == \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, S.Half)) )/3 + \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, S.Half)) )/3 + \ + JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + 4*sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, + 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1))) == \ + -2*JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, S.Half)) )/6 + \ + sqrt(2)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + 2*sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, 1, 1), ((1, + 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0))) == \ + -sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, S.Half)) )/3 - \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, S.Half)) )/3 + \ + 2*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, + 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, -1))) == \ + sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, + 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1))) == \ + -sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(S( + 5)/2, Rational(3, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0))) == \ + -sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, S.Half)) )/3 - \ + JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, S.Half)) )/3 - \ + 2*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + sqrt(5)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(S( + 5)/2, S.Half, (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1))) == \ + -2*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + 2*sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, + 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1))) == \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, S.Half)) )/3 + \ + JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, S.Half)) )/3 - \ + JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + 4*sqrt(5)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(S( + 5)/2, S.Half, (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0))) == \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, S.Half)) )/3 - \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, S.Half)) )/3 - \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, + 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1))) == \ + -sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, 2, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + 2*sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, + 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1))) == \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, S.Half)) )/2 - \ + sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, + 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0))) == \ + -sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, + 2, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, -1))) == \ + JzKetCoupled(S( + 5)/2, Rational(-5, 2), (S.Half, 1, 1), ((1, 2, Rational(3, 2)), (1, 3, Rational(5, 2))) ) + # j1=1, j2=1, j3=1 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 1))) == \ + JzKetCoupled(3, 3, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) ) + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 0))) == \ + sqrt(6)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/3 + \ + sqrt(3)*JzKetCoupled(3, 2, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/3 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1))) == \ + sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/5 + \ + sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/3 + \ + sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 1))) == \ + sqrt(2)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 - \ + sqrt(6)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \ + sqrt(3)*JzKetCoupled(3, 2, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/3 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0))) == \ + JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 - \ + sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 + \ + JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 + \ + sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \ + 2*sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, -1))) == \ + sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 0)) )/6 + \ + JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 + \ + sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/6 + \ + JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/2 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/10 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 1))) == \ + sqrt(3)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 - \ + JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/30 + \ + JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 - \ + sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \ + sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 0))) == \ + -sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 0)) )/6 + \ + sqrt(3)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 - \ + sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/15 + \ + sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/3 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/10 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1))) == \ + sqrt(3)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 + \ + JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/30 + \ + JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 + \ + sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \ + sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 1))) == \ + -sqrt(2)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 - \ + sqrt(6)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \ + sqrt(3)*JzKetCoupled(3, 2, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/3 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 0))) == \ + -JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 - \ + sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 - \ + JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 + \ + sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \ + 2*sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1))) == \ + -sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 0)) )/6 - \ + JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 - \ + sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/6 + \ + JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/2 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/10 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1))) == \ + -sqrt(3)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 + \ + sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/15 - \ + sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/3 + \ + 2*sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 0))) == \ + -sqrt(3)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 - \ + 2*sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/15 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/5 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1))) == \ + -sqrt(3)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 + \ + sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/15 + \ + sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/3 + \ + 2*sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1))) == \ + sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 0)) )/6 - \ + JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 + \ + sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/6 - \ + JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/2 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/10 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 0))) == \ + -JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 - \ + sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 + \ + JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 - \ + sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \ + 2*sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, -1))) == \ + sqrt(2)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 + \ + sqrt(6)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \ + sqrt(3)*JzKetCoupled(3, -2, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/3 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1))) == \ + sqrt(3)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 + \ + JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/30 - \ + JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 - \ + sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \ + sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 0))) == \ + sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 0)) )/6 + \ + sqrt(3)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 - \ + sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/15 - \ + sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/3 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/10 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, -1))) == \ + sqrt(3)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 - \ + JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/30 - \ + JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 + \ + sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \ + sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 1))) == \ + -sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 0)) )/6 + \ + JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 - \ + sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/6 - \ + JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/2 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/10 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0))) == \ + JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 - \ + sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 - \ + JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 - \ + sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \ + 2*sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, -1))) == \ + -sqrt(2)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 + \ + sqrt(6)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \ + sqrt(3)*JzKetCoupled(3, -2, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/3 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1))) == \ + sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/5 - \ + sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/3 + \ + sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 0))) == \ + -sqrt(6)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/3 + \ + sqrt(3)*JzKetCoupled(3, -2, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/3 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, -1))) == \ + JzKetCoupled(3, -3, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) ) + # j1=S.Half, j2=S.Half, j3=Rational(3, 2) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), Rational(3, 2)))) == \ + JzKetCoupled(Rational(5, 2), S( + 5)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(5, 2))) ) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), S.Half))) == \ + sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/5 + \ + sqrt(15)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S.Half, S(3) + /2), ((1, 2, 1), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), Rational(-1, 2)))) == \ + sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, S.Half)) )/6 + \ + 2*sqrt(30)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(30)*JzKetCoupled(Rational(5, 2), S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), Rational(-3, 2)))) == \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, S.Half)) )/2 + \ + sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), -S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), Rational(3, 2)))) == \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 0), (1, 3, Rational(3, 2))) )/2 - \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/10 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S.Half, S(3)/ + 2), ((1, 2, 1), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), S.Half))) == \ + -sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, S.Half)) )/6 + \ + sqrt(2)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 0), (1, 3, Rational(3, 2))) )/2 - \ + sqrt(30)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/30 + \ + sqrt(30)*JzKetCoupled(Rational(5, 2), S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), Rational(-1, 2)))) == \ + -sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, S.Half)) )/6 + \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 0), (1, 3, Rational(3, 2))) )/2 + \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/30 + \ + sqrt(30)*JzKetCoupled(Rational(5, 2), -S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), Rational(-3, 2)))) == \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 0), (1, 3, Rational(3, 2))) )/2 + \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/10 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S.Half, S(3) + /2), ((1, 2, 1), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), Rational(3, 2)))) == \ + -sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 0), (1, 3, Rational(3, 2))) )/2 - \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/10 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S.Half, S(3)/ + 2), ((1, 2, 1), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), S.Half))) == \ + -sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 0), (1, 3, Rational(3, 2))) )/2 - \ + sqrt(30)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/30 + \ + sqrt(30)*JzKetCoupled(Rational(5, 2), S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), Rational(-1, 2)))) == \ + -sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 0), (1, 3, Rational(3, 2))) )/2 + \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/30 + \ + sqrt(30)*JzKetCoupled(Rational(5, 2), -S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), Rational(-3, 2)))) == \ + -sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 0), (1, 3, Rational(3, 2))) )/2 + \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/10 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S.Half, S(3) + /2), ((1, 2, 1), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), Rational(3, 2)))) == \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, S.Half)) )/2 - \ + sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), S.Half))) == \ + sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, S.Half)) )/6 - \ + 2*sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(30)*JzKetCoupled(Rational(5, 2), -S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), Rational(-1, 2)))) == \ + -sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(3, 2))) )/5 + \ + sqrt(15)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S.Half, S( + 3)/2), ((1, 2, 1), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), Rational(-3, 2)))) == \ + JzKetCoupled(Rational(5, 2), -S( + 5)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 2, 1), (1, 3, Rational(5, 2))) ) + # Couple j1 to j3 + # j1=1/2, j2=1/2, j3=1/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(Rational(3, 2), S( + 3)/2, (S.Half, S.Half, S.Half), ((1, 3, 1), (1, 2, Rational(3, 2))) ) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ) == \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half), ((1, 3, 0), (1, 2, S.Half)) )/2 - \ + sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half), ((1, 3, 1), (1, 2, S.Half)) )/6 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.One/ + 2), ((1, 3, 1), (1, 2, Rational(3, 2))) )/3 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ) == \ + sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half), ((1, 3, 1), (1, 2, S.Half)) )/3 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.One/ + 2), ((1, 3, 1), (1, 2, Rational(3, 2))) )/3 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ) == \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half), ((1, 3, 0), (1, 2, S.Half)) )/2 + \ + sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half), ((1, 3, 1), (1, 2, S.Half)) )/6 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.One + /2), ((1, 3, 1), (1, 2, Rational(3, 2))) )/3 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ) == \ + -sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half), ((1, 3, 0), (1, 2, S.Half)) )/2 - \ + sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half), ((1, 3, 1), (1, 2, S.Half)) )/6 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.One/ + 2), ((1, 3, 1), (1, 2, Rational(3, 2))) )/3 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ) == \ + -sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half), ((1, 3, 1), (1, 2, S.Half)) )/3 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.One + /2), ((1, 3, 1), (1, 2, Rational(3, 2))) )/3 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), ((1, 3), (1, 2)) ) == \ + -sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half), ((1, 3, 0), (1, 2, S.Half)) )/2 + \ + sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half), ((1, 3, 1), (1, 2, S.Half)) )/6 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.One + /2), ((1, 3, 1), (1, 2, Rational(3, 2))) )/3 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(Rational(3, 2), -S( + 3)/2, (S.Half, S.Half, S.Half), ((1, 3, 1), (1, 2, Rational(3, 2))) ) + # j1=1/2, j2=1/2, j3=1 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(2, 2, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 2)) ) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + sqrt(3)*JzKetCoupled(1, 1, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 1)) )/3 - \ + sqrt(6)*JzKetCoupled(1, 1, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 1)) )/6 + \ + sqrt(2)*JzKetCoupled( + 2, 1, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + -sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 0)) )/3 + \ + sqrt(3)*JzKetCoupled(1, 0, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 1)) )/3 - \ + sqrt(6)*JzKetCoupled(1, 0, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 1)) )/6 + \ + sqrt(6)*JzKetCoupled( + 2, 0, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + sqrt(3)*JzKetCoupled(1, 1, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 1)) )/2 + \ + JzKetCoupled(2, 1, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + sqrt(6)*JzKetCoupled(0, 0, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 0)) )/6 + \ + sqrt(6)*JzKetCoupled(1, 0, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 1)) )/6 + \ + sqrt(3)*JzKetCoupled(1, 0, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 1)) )/3 + \ + sqrt(3)*JzKetCoupled( + 2, 0, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 2)) )/3 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + sqrt(6)*JzKetCoupled(1, -1, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 1)) )/3 + \ + sqrt(3)*JzKetCoupled(1, -1, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 1)) )/6 + \ + JzKetCoupled( + 2, -1, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + -sqrt(6)*JzKetCoupled(1, 1, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 1)) )/3 - \ + sqrt(3)*JzKetCoupled(1, 1, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 1)) )/6 + \ + JzKetCoupled(2, 1, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + sqrt(6)*JzKetCoupled(0, 0, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 0)) )/6 - \ + sqrt(6)*JzKetCoupled(1, 0, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 1)) )/6 - \ + sqrt(3)*JzKetCoupled(1, 0, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 1)) )/3 + \ + sqrt(3)*JzKetCoupled( + 2, 0, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 2)) )/3 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + -sqrt(3)*JzKetCoupled(1, -1, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 1)) )/2 + \ + JzKetCoupled( + 2, -1, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + -sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 0)) )/3 - \ + sqrt(3)*JzKetCoupled(1, 0, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 1)) )/3 + \ + sqrt(6)*JzKetCoupled(1, 0, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 1)) )/6 + \ + sqrt(6)*JzKetCoupled( + 2, 0, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + -sqrt(3)*JzKetCoupled(1, -1, (S.Half, S.Half, 1), ((1, 3, S.Half), (1, 2, 1)) )/3 + \ + sqrt(6)*JzKetCoupled(1, -1, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 1)) )/6 + \ + sqrt(2)*JzKetCoupled( + 2, -1, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(2, -2, (S.Half, S.Half, 1), ((1, 3, Rational(3, 2)), (1, 2, 2)) ) + # j 1=1/2, j 2=1, j 3=1 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + JzKetCoupled( + Rational(5, 2), Rational(5, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(5, 2))) ) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))) )/3 - \ + 2*sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(S( + 5)/2, Rational(3, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + -2*JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, S.Half)) )/6 + \ + sqrt(2)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))) )/3 - \ + 2*sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, 1, 1), ((1, + 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(S( + 5)/2, Rational(3, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, S.Half)) )/3 - \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))) )/3 + \ + sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(S( + 5)/2, S.Half, (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, 0), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + -sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, S.Half)) )/3 - \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, S.Half)) )/3 + \ + 2*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))) )/3 - \ + sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, + 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, S.Half)) )/2 + \ + sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, 1, 1), ((1, + 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, S.Half)) )/3 + \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, S.Half)) )/3 + \ + JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))) )/3 + \ + 4*sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, + 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(1, -1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))) )/3 + \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, + 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + -sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))) )/3 - \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(S( + 5)/2, Rational(3, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, S.Half)) )/3 + \ + JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, S.Half)) )/3 - \ + JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))) )/3 - \ + 4*sqrt(5)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(S( + 5)/2, S.Half, (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, S.Half)) )/2 - \ + sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, + 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + -sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, S.Half)) )/3 - \ + JzKetCoupled(S.Half, S.Half, (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, S.Half)) )/3 - \ + 2*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))) )/3 + \ + sqrt(5)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(S( + 5)/2, S.Half, (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, S.Half)) )/3 - \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, S.Half)) )/3 - \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))) )/3 - \ + sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, + 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + -sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, + 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + -2*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))) )/3 + \ + 2*sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, 1, 1), ((1, + 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + -sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, 3, S.Half), (1, 2, Rational(3, 2))) )/3 + \ + 2*sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, 1, 1), ((1, + 3, Rational(3, 2)), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(S( + 5)/2, Rational(-5, 2), (S.Half, 1, 1), ((1, 3, Rational(3, 2)), (1, 2, Rational(5, 2))) ) + # j1=1, 1, 1 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(3, 3, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) ) + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + sqrt(2)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 - \ + sqrt(6)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \ + sqrt(3)*JzKetCoupled(3, 2, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/3 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + sqrt(3)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 - \ + JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/30 + \ + JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 - \ + sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \ + sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + sqrt(6)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/3 + \ + sqrt(3)*JzKetCoupled(3, 2, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/3 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 - \ + sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 + \ + JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 + \ + sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \ + 2*sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + -sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 0)) )/6 + \ + sqrt(3)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 - \ + sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/15 + \ + sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/3 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/10 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/5 + \ + sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/3 + \ + sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 0)) )/6 + \ + JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 + \ + sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/6 + \ + JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/2 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/10 + assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + sqrt(3)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 + \ + JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/30 + \ + JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 + \ + sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \ + sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + -sqrt(2)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 - \ + sqrt(6)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \ + sqrt(3)*JzKetCoupled(3, 2, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/3 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + -sqrt(3)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 + \ + sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/15 - \ + sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/3 + \ + 2*sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 0)) )/6 - \ + JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 + \ + sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/6 - \ + JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/2 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/10 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + -JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 - \ + sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 - \ + JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 + \ + sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \ + 2*sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + -sqrt(3)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 - \ + 2*sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/15 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/5 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + -JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 - \ + sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 + \ + JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 - \ + sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \ + 2*sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + -sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 0)) )/6 - \ + JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 - \ + sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/6 + \ + JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/2 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/10 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + -sqrt(3)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 + \ + sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/15 + \ + sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/3 + \ + 2*sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15 + assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + sqrt(2)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 + \ + sqrt(6)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \ + sqrt(3)*JzKetCoupled(3, -2, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/3 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + sqrt(3)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 + \ + JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/30 - \ + JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 - \ + sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \ + sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + -sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 0)) )/6 + \ + JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 - \ + sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/6 - \ + JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/2 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/10 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/5 - \ + sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/3 + \ + sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 0)) )/6 + \ + sqrt(3)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 - \ + sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/15 - \ + sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/3 + \ + sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/10 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 - \ + sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 - \ + JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 - \ + sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \ + 2*sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + -sqrt(6)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/3 + \ + sqrt(3)*JzKetCoupled(3, -2, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/3 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \ + sqrt(3)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 - \ + JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \ + sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/30 - \ + JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 + \ + sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \ + sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \ + -sqrt(2)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 + \ + sqrt(6)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \ + sqrt(3)*JzKetCoupled(3, -2, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/3 + assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(3, -3, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) ) + # j1=1/2, j2=1/2, j3=3/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), Rational(3, 2))), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(Rational(5, 2), S( + 5)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(5, 2))) ) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), S.Half)), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, Rational(3, 2))) )/2 - \ + sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/10 + \ + sqrt(15)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S.Half, S(3) + /2), ((1, 3, 2), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), Rational(-1, 2))), ((1, 3), (1, 2)) ) == \ + -sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, S.Half)) )/6 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, Rational(3, 2))) )/3 - \ + sqrt(5)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/5 + \ + sqrt(30)*JzKetCoupled(Rational(5, 2), S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), Rational(-3, 2))), ((1, 3), (1, 2)) ) == \ + -sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, S.Half)) )/2 + \ + JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, Rational(3, 2))) )/2 - \ + sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/10 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), -S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), Rational(3, 2))), ((1, 3), (1, 2)) ) == \ + 2*sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/5 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S.Half, S(3)/ + 2), ((1, 3, 2), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), S.Half)), ((1, 3), (1, 2)) ) == \ + sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, S.Half)) )/6 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, Rational(3, 2))) )/6 + \ + 3*sqrt(5)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/10 + \ + sqrt(30)*JzKetCoupled(Rational(5, 2), S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), Rational(-1, 2))), ((1, 3), (1, 2)) ) == \ + sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, S.Half)) )/6 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, Rational(3, 2))) )/3 + \ + sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/5 + \ + sqrt(30)*JzKetCoupled(Rational(5, 2), -S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), Rational(-3, 2))), ((1, 3), (1, 2)) ) == \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, Rational(3, 2))) )/2 + \ + sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/10 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S.Half, S(3) + /2), ((1, 3, 2), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), Rational(3, 2))), ((1, 3), (1, 2)) ) == \ + -sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, Rational(3, 2))) )/2 - \ + sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/10 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S.Half, S(3)/ + 2), ((1, 3, 2), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), S.Half)), ((1, 3), (1, 2)) ) == \ + sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, S.Half)) )/6 - \ + sqrt(3)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, Rational(3, 2))) )/3 - \ + sqrt(5)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/5 + \ + sqrt(30)*JzKetCoupled(Rational(5, 2), S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), Rational(-1, 2))), ((1, 3), (1, 2)) ) == \ + sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, S.Half)) )/6 - \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, Rational(3, 2))) )/6 - \ + 3*sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/10 + \ + sqrt(30)*JzKetCoupled(Rational(5, 2), -S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(Rational(3, 2), Rational(-3, 2))), ((1, 3), (1, 2)) ) == \ + -2*sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/5 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S.Half, S(3) + /2), ((1, 3, 2), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), Rational(3, 2))), ((1, 3), (1, 2)) ) == \ + -sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, S.Half)) )/2 - \ + JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, Rational(3, 2))) )/2 + \ + sqrt(15)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/10 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), S.Half)), ((1, 3), (1, 2)) ) == \ + -sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, S.Half)) )/6 - \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, Rational(3, 2))) )/3 + \ + sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/5 + \ + sqrt(30)*JzKetCoupled(Rational(5, 2), -S( + 1)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), Rational(-1, 2))), ((1, 3), (1, 2)) ) == \ + -JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 1), (1, 2, Rational(3, 2))) )/2 + \ + sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(3, 2))) )/10 + \ + sqrt(15)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S.Half, S( + 3)/2), ((1, 3, 2), (1, 2, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(Rational(3, 2), Rational(-3, 2))), ((1, 3), (1, 2)) ) == \ + JzKetCoupled(Rational(5, 2), -S( + 5)/2, (S.Half, S.Half, Rational(3, 2)), ((1, 3, 2), (1, 2, Rational(5, 2))) ) + + +def test_couple_4_states_numerical(): + # Default coupling + # j1=1/2, j2=1/2, j3=1/2, j4=1/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half))) == \ + JzKetCoupled(2, 2, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) ) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)))) == \ + sqrt(3)*JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)) )/2 + \ + JzKetCoupled(2, 1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half))) == \ + sqrt(6)*JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 1)) )/3 - \ + sqrt(3)*JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)) )/6 + \ + JzKetCoupled(2, 1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)))) == \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 0)) )/3 + \ + sqrt(3)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 1)) )/3 + \ + sqrt(6)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)) )/6 + \ + sqrt(6)*JzKetCoupled(2, 0, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half))) == \ + sqrt(2)*JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half), (1, 4, 1)) )/2 - \ + sqrt(6)*JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 1)) )/6 - \ + sqrt(3)*JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)) )/6 + \ + JzKetCoupled(2, 1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), + JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)))) == \ + JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), + ((1, 2, 0), (1, 3, S.Half), (1, 4, 0)))/2 - \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), + ((1, 2, 1), (1, 3, S.Half), (1, 4, 0)))/6 + \ + JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), + ((1, 2, 0), (1, 3, S.Half), (1, 4, 1)))/2 - \ + sqrt(3)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), + ((1, 2, 1), (1, 3, S.Half), (1, 4, 1)))/6 + \ + sqrt(6)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), + ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)))/6 + \ + sqrt(6)*JzKetCoupled(2, 0, (S.Half, S.Half, S.Half, S.Half), + ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)))/6 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half))) == \ + -JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half), (1, 4, 0)) )/2 - \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 0)) )/6 + \ + JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half), (1, 4, 1)) )/2 + \ + sqrt(3)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 1)) )/6 - \ + sqrt(6)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)) )/6 + \ + sqrt(6)*JzKetCoupled(2, 0, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)))) == \ + sqrt(2)*JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half), (1, 4, 1)) )/2 + \ + sqrt(6)*JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 1)) )/6 + \ + sqrt(3)*JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)) )/6 + \ + JzKetCoupled(2, -1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half))) == \ + -sqrt(2)*JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half), (1, 4, 1)) )/2 - \ + sqrt(6)*JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 1)) )/6 - \ + sqrt(3)*JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)) )/6 + \ + JzKetCoupled(2, 1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)))) == \ + -JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half), (1, 4, 0)) )/2 - \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 0)) )/6 - \ + JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half), (1, 4, 1)) )/2 - \ + sqrt(3)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 1)) )/6 + \ + sqrt(6)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)) )/6 + \ + sqrt(6)*JzKetCoupled(2, 0, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half))) == \ + JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half), (1, 4, 0)) )/2 - \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 0)) )/6 - \ + JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half), (1, 4, 1)) )/2 + \ + sqrt(3)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 1)) )/6 - \ + sqrt(6)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)) )/6 + \ + sqrt(6)*JzKetCoupled(2, 0, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)))) == \ + -sqrt(2)*JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (1, 3, S.Half), (1, 4, 1)) )/2 + \ + sqrt(6)*JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 1)) )/6 + \ + sqrt(3)*JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)) )/6 + \ + JzKetCoupled(2, -1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half))) == \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 0)) )/3 - \ + sqrt(3)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 1)) )/3 - \ + sqrt(6)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)) )/6 + \ + sqrt(6)*JzKetCoupled(2, 0, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)))) == \ + -sqrt(6)*JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, S.Half), (1, 4, 1)) )/3 + \ + sqrt(3)*JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)) )/6 + \ + JzKetCoupled(2, -1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half))) == \ + -sqrt(3)*JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 1)) )/2 + \ + JzKetCoupled(2, -1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)))) == \ + JzKetCoupled(2, -2, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, 2)) ) + # j1=S.Half, S.Half, S.Half, 1 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1))) == \ + JzKetCoupled(Rational(5, 2), Rational(5, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) ) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0))) == \ + sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1))) == \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/2 + \ + sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1))) == \ + sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 - \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0))) == \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, S.Half)) )/3 - \ + JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/3 + \ + 2*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 + \ + sqrt(5)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1))) == \ + 2*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/6 + \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 + \ + 2*sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1))) == \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/2 - \ + sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/6 - \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0))) == \ + sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, S.Half)) )/6 - \ + JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/3 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 - \ + JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 + \ + sqrt(5)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1))) == \ + sqrt(3)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, S.Half)) )/3 - \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/6 + \ + sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/6 - \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/6 + \ + 2*sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1))) == \ + -sqrt(3)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, S.Half)) )/3 - \ + JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/6 + \ + sqrt(6)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/6 + \ + sqrt(2)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/6 - \ + 2*sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0))) == \ + -sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, S.Half)) )/6 - \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/3 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 + \ + JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 - \ + sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1))) == \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/2 + \ + sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/6 + \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1))) == \ + -sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/2 - \ + sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/6 - \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0))) == \ + -sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, S.Half)) )/6 - \ + JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/3 - \ + sqrt(3)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 - \ + JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 + \ + sqrt(5)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1))) == \ + -sqrt(3)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, S.Half)) )/3 - \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/6 - \ + sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/6 - \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/6 + \ + 2*sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1))) == \ + sqrt(3)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, S.Half)) )/3 - \ + JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/6 - \ + sqrt(6)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/6 + \ + sqrt(2)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/6 - \ + 2*sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0))) == \ + sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, S.Half)) )/6 - \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/3 - \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 + \ + JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 - \ + sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1))) == \ + -sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/2 + \ + sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/6 + \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1))) == \ + 2*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 - \ + 2*sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0))) == \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, S.Half)) )/3 - \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/3 - \ + 2*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 - \ + sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1))) == \ + -sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, S.Half), (1, 4, Rational(3, 2))) )/3 + \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1))) == \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, S.Half)) )/2 - \ + sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0))) == \ + -sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1))) == \ + JzKetCoupled(Rational(5, 2), Rational(-5, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (1, 3, Rational(3, 2)), (1, 4, Rational(5, 2))) ) + # Couple j1 to j2, j3 to j4 + # j1=1/2, j2=1/2, j3=1/2, j4=1/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)), ((1, 2), (3, 4), (1, 3)) ) == \ + JzKetCoupled(2, 2, (S( + 1)/2, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) ) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(2)*JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 + \ + JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(2, 1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(2)*JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 + \ + JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(2, 1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 0)) )/3 + \ + sqrt(2)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \ + sqrt(6)*JzKetCoupled(2, 0, (S.Half, S.Half, S.Half, S.One/ + 2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(2)*JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 - \ + JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(2, 1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), ((1, 2), (3, 4), (1, 3)) ) == \ + JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (3, 4, 0), (1, 3, 0)) )/2 - \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 0)) )/6 + \ + JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 + \ + sqrt(6)*JzKetCoupled(2, 0, (S.Half, S.Half, S.Half, S.One/ + 2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), ((1, 2), (3, 4), (1, 3)) ) == \ + -JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (3, 4, 0), (1, 3, 0)) )/2 - \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 0)) )/6 + \ + JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 - \ + JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 + \ + sqrt(6)*JzKetCoupled(2, 0, (S.Half, S.Half, S.Half, S.One/ + 2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(2)*JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(2, -1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(2)*JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 - \ + JzKetCoupled(1, 1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(2, 1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), ((1, 2), (3, 4), (1, 3)) ) == \ + -JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (3, 4, 0), (1, 3, 0)) )/2 - \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 0)) )/6 - \ + JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 + \ + sqrt(6)*JzKetCoupled(2, 0, (S.Half, S.Half, S.Half, S.One/ + 2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), ((1, 2), (3, 4), (1, 3)) ) == \ + JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (3, 4, 0), (1, 3, 0)) )/2 - \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 0)) )/6 - \ + JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 - \ + JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 + \ + sqrt(6)*JzKetCoupled(2, 0, (S.Half, S.Half, S.Half, S.One/ + 2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(2)*JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(2, -1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half)), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(3)*JzKetCoupled(0, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 0)) )/3 - \ + sqrt(2)*JzKetCoupled(1, 0, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \ + sqrt(6)*JzKetCoupled(2, 0, (S.Half, S.Half, S.Half, S.One/ + 2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/6 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(2)*JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 - \ + JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(2, -1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half)), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(2)*JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 - \ + JzKetCoupled(1, -1, (S.Half, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \ + JzKetCoupled(2, -1, (S.Half, S( + 1)/2, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2))), ((1, 2), (3, 4), (1, 3)) ) == \ + JzKetCoupled(2, -2, (S( + 1)/2, S.Half, S.Half, S.Half), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) ) + # j1=S.Half, S.Half, S.Half, 1 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \ + JzKetCoupled(Rational(5, 2), Rational(5, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) ) + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + 2*sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \ + 2*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/6 + \ + sqrt(2)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + 2*sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, S.Half)) )/3 + \ + JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/3 - \ + JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + 4*sqrt(5)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/2 + \ + sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/2 - \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/10 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, S.Half), (1, 3, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, S.Half)) )/6 - \ + JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/3 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/3 + \ + JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + sqrt(5)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(3)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, S.Half), (1, 3, S.Half)) )/3 + \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, S.Half)) )/3 - \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/6 + \ + sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/6 + \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/30 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(3)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, S.Half), (1, 3, S.Half)) )/3 + \ + JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, S.Half)) )/3 - \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/6 + \ + sqrt(6)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/6 - \ + sqrt(2)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/30 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, S.Half), (1, 3, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, S.Half)) )/6 - \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/3 + \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/3 - \ + JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/2 + \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/10 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/2 - \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/10 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(6)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, S.Half), (1, 3, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, S.Half)) )/6 - \ + JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/3 - \ + sqrt(3)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/3 + \ + JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + sqrt(5)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, S.Half), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(3)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, S.Half), (1, 3, S.Half)) )/3 + \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, S.Half)) )/3 - \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/6 - \ + sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/6 + \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/30 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(3)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, S.Half), (1, 3, S.Half)) )/3 + \ + JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, S.Half)) )/3 - \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/6 - \ + sqrt(6)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/6 - \ + sqrt(2)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/30 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(6)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, S.Half), (1, 3, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, S.Half)) )/6 - \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/3 - \ + sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/3 - \ + JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 + \ + sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 0), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/2 + \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/10 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(2)*JzKetCoupled(S.Half, S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/2 - \ + sqrt(10)*JzKetCoupled(Rational(3, 2), S.Half, (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/5 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), S.Half, (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, S.Half)) )/3 + \ + JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/3 + \ + JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + 4*sqrt(5)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, S.Half), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \ + sqrt(6)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + sqrt(30)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(5)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \ + 2*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, S.Half)) )/3 + \ + sqrt(2)*JzKetCoupled(S.Half, Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, S.Half)) )/6 - \ + sqrt(2)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + 2*sqrt(10)*JzKetCoupled(Rational(3, 2), Rational(-1, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-1, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/10 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \ + -sqrt(3)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, S.Half), (1, 3, Rational(3, 2))) )/3 - \ + 2*sqrt(15)*JzKetCoupled(Rational(3, 2), Rational(-3, 2), (S.Half, S.Half, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(3, 2))) )/15 + \ + sqrt(10)*JzKetCoupled(Rational(5, 2), Rational(-3, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) )/5 + assert couple(TensorProduct(JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(S.Half, Rational(-1, 2)), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \ + JzKetCoupled(Rational(5, 2), Rational(-5, 2), (S.Half, S( + 1)/2, S.Half, 1), ((1, 2, 1), (3, 4, Rational(3, 2)), (1, 3, Rational(5, 2))) ) + + +def test_couple_symbolic(): + assert couple(TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + Sum(CG(j1, m1, j2, m2, j, m1 + m2) * JzKetCoupled(j, m1 + m2, ( + j1, j2)), (j, m1 + m2, j1 + j2)) + assert couple(TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3))) == \ + Sum(CG(j1, m1, j2, m2, j12, m1 + m2) * CG(j12, m1 + m2, j3, m3, j, m1 + m2 + m3) * + JzKetCoupled(j, m1 + m2 + m3, (j1, j2, j3), ((1, 2, j12), (1, 3, j)) ), + (j12, m1 + m2, j1 + j2), (j, m1 + m2 + m3, j12 + j3)) + assert couple(TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3)), ((1, 3), (1, 2)) ) == \ + Sum(CG(j1, m1, j3, m3, j13, m1 + m3) * CG(j13, m1 + m3, j2, m2, j, m1 + m2 + m3) * + JzKetCoupled(j, m1 + m2 + m3, (j1, j2, j3), ((1, 3, j13), (1, 2, j)) ), + (j13, m1 + m3, j1 + j3), (j, m1 + m2 + m3, j13 + j2)) + assert couple(TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3), JzKet(j4, m4))) == \ + Sum(CG(j1, m1, j2, m2, j12, m1 + m2) * CG(j12, m1 + m2, j3, m3, j123, m1 + m2 + m3) * CG(j123, m1 + m2 + m3, j4, m4, j, m1 + m2 + m3 + m4) * + JzKetCoupled(j, m1 + m2 + m3 + m4, ( + j1, j2, j3, j4), ((1, 2, j12), (1, 3, j123), (1, 4, j)) ), + (j12, m1 + m2, j1 + j2), (j123, m1 + m2 + m3, j12 + j3), (j, m1 + m2 + m3 + m4, j123 + j4)) + assert couple(TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3), JzKet(j4, m4)), ((1, 2), (3, 4), (1, 3)) ) == \ + Sum(CG(j1, m1, j2, m2, j12, m1 + m2) * CG(j3, m3, j4, m4, j34, m3 + m4) * CG(j12, m1 + m2, j34, m3 + m4, j, m1 + m2 + m3 + m4) * + JzKetCoupled(j, m1 + m2 + m3 + m4, ( + j1, j2, j3, j4), ((1, 2, j12), (3, 4, j34), (1, 3, j)) ), + (j12, m1 + m2, j1 + j2), (j34, m3 + m4, j3 + j4), (j, m1 + m2 + m3 + m4, j12 + j34)) + assert couple(TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3), JzKet(j4, m4)), ((1, 3), (1, 4), (1, 2)) ) == \ + Sum(CG(j1, m1, j3, m3, j13, m1 + m3) * CG(j13, m1 + m3, j4, m4, j134, m1 + m3 + m4) * CG(j134, m1 + m3 + m4, j2, m2, j, m1 + m2 + m3 + m4) * + JzKetCoupled(j, m1 + m2 + m3 + m4, ( + j1, j2, j3, j4), ((1, 3, j13), (1, 4, j134), (1, 2, j)) ), + (j13, m1 + m3, j1 + j3), (j134, m1 + m3 + m4, j13 + j4), (j, m1 + m2 + m3 + m4, j134 + j2)) + + +def test_innerproduct(): + assert InnerProduct(JzBra(1, 1), JzKet(1, 1)).doit() == 1 + assert InnerProduct( + JzBra(S.Half, S.Half), JzKet(S.Half, Rational(-1, 2))).doit() == 0 + assert InnerProduct(JzBra(j, m), JzKet(j, m)).doit() == 1 + assert InnerProduct(JzBra(1, 0), JyKet(1, 1)).doit() == I/sqrt(2) + assert InnerProduct( + JxBra(S.Half, S.Half), JzKet(S.Half, S.Half)).doit() == -sqrt(2)/2 + assert InnerProduct(JyBra(1, 1), JzKet(1, 1)).doit() == S.Half + assert InnerProduct(JxBra(1, -1), JyKet(1, 1)).doit() == 0 + + +def test_rotation_small_d(): + # Symbolic tests + # j = 1/2 + assert Rotation.d(S.Half, S.Half, S.Half, beta).doit() == cos(beta/2) + assert Rotation.d(S.Half, S.Half, Rational(-1, 2), beta).doit() == -sin(beta/2) + assert Rotation.d(S.Half, Rational(-1, 2), S.Half, beta).doit() == sin(beta/2) + assert Rotation.d(S.Half, Rational(-1, 2), Rational(-1, 2), beta).doit() == cos(beta/2) + # j = 1 + assert Rotation.d(1, 1, 1, beta).doit() == (1 + cos(beta))/2 + assert Rotation.d(1, 1, 0, beta).doit() == -sin(beta)/sqrt(2) + assert Rotation.d(1, 1, -1, beta).doit() == (1 - cos(beta))/2 + assert Rotation.d(1, 0, 1, beta).doit() == sin(beta)/sqrt(2) + assert Rotation.d(1, 0, 0, beta).doit() == cos(beta) + assert Rotation.d(1, 0, -1, beta).doit() == -sin(beta)/sqrt(2) + assert Rotation.d(1, -1, 1, beta).doit() == (1 - cos(beta))/2 + assert Rotation.d(1, -1, 0, beta).doit() == sin(beta)/sqrt(2) + assert Rotation.d(1, -1, -1, beta).doit() == (1 + cos(beta))/2 + # j = 3/2 + assert Rotation.d(S( + 3)/2, Rational(3, 2), Rational(3, 2), beta).doit() == (3*cos(beta/2) + cos(beta*Rational(3, 2)))/4 + assert Rotation.d(Rational(3, 2), S( + 3)/2, S.Half, beta).doit() == -sqrt(3)*(sin(beta/2) + sin(beta*Rational(3, 2)))/4 + assert Rotation.d(Rational(3, 2), S( + 3)/2, Rational(-1, 2), beta).doit() == sqrt(3)*(cos(beta/2) - cos(beta*Rational(3, 2)))/4 + assert Rotation.d(Rational(3, 2), S( + 3)/2, Rational(-3, 2), beta).doit() == (-3*sin(beta/2) + sin(beta*Rational(3, 2)))/4 + assert Rotation.d(Rational(3, 2), S( + 1)/2, Rational(3, 2), beta).doit() == sqrt(3)*(sin(beta/2) + sin(beta*Rational(3, 2)))/4 + assert Rotation.d(S( + 3)/2, S.Half, S.Half, beta).doit() == (cos(beta/2) + 3*cos(beta*Rational(3, 2)))/4 + assert Rotation.d(S( + 3)/2, S.Half, Rational(-1, 2), beta).doit() == (sin(beta/2) - 3*sin(beta*Rational(3, 2)))/4 + assert Rotation.d(Rational(3, 2), S( + 1)/2, Rational(-3, 2), beta).doit() == sqrt(3)*(cos(beta/2) - cos(beta*Rational(3, 2)))/4 + assert Rotation.d(Rational(3, 2), -S( + 1)/2, Rational(3, 2), beta).doit() == sqrt(3)*(cos(beta/2) - cos(beta*Rational(3, 2)))/4 + assert Rotation.d(Rational(3, 2), -S( + 1)/2, S.Half, beta).doit() == (-sin(beta/2) + 3*sin(beta*Rational(3, 2)))/4 + assert Rotation.d(Rational(3, 2), -S( + 1)/2, Rational(-1, 2), beta).doit() == (cos(beta/2) + 3*cos(beta*Rational(3, 2)))/4 + assert Rotation.d(Rational(3, 2), -S( + 1)/2, Rational(-3, 2), beta).doit() == -sqrt(3)*(sin(beta/2) + sin(beta*Rational(3, 2)))/4 + assert Rotation.d(S( + 3)/2, Rational(-3, 2), Rational(3, 2), beta).doit() == (3*sin(beta/2) - sin(beta*Rational(3, 2)))/4 + assert Rotation.d(Rational(3, 2), -S( + 3)/2, S.Half, beta).doit() == sqrt(3)*(cos(beta/2) - cos(beta*Rational(3, 2)))/4 + assert Rotation.d(Rational(3, 2), -S( + 3)/2, Rational(-1, 2), beta).doit() == sqrt(3)*(sin(beta/2) + sin(beta*Rational(3, 2)))/4 + assert Rotation.d(Rational(3, 2), -S( + 3)/2, Rational(-3, 2), beta).doit() == (3*cos(beta/2) + cos(beta*Rational(3, 2)))/4 + # j = 2 + assert Rotation.d(2, 2, 2, beta).doit() == (3 + 4*cos(beta) + cos(2*beta))/8 + assert Rotation.d(2, 2, 1, beta).doit() == -((cos(beta) + 1)*sin(beta))/2 + assert Rotation.d(2, 2, 0, beta).doit() == sqrt(6)*sin(beta)**2/4 + assert Rotation.d(2, 2, -1, beta).doit() == (cos(beta) - 1)*sin(beta)/2 + assert Rotation.d(2, 2, -2, beta).doit() == (3 - 4*cos(beta) + cos(2*beta))/8 + assert Rotation.d(2, 1, 2, beta).doit() == (cos(beta) + 1)*sin(beta)/2 + assert Rotation.d(2, 1, 1, beta).doit() == (cos(beta) + cos(2*beta))/2 + assert Rotation.d(2, 1, 0, beta).doit() == -sqrt(6)*sin(2*beta)/4 + assert Rotation.d(2, 1, -1, beta).doit() == (cos(beta) - cos(2*beta))/2 + assert Rotation.d(2, 1, -2, beta).doit() == (cos(beta) - 1)*sin(beta)/2 + assert Rotation.d(2, 0, 2, beta).doit() == sqrt(6)*sin(beta)**2/4 + assert Rotation.d(2, 0, 1, beta).doit() == sqrt(6)*sin(2*beta)/4 + assert Rotation.d(2, 0, 0, beta).doit() == (1 + 3*cos(2*beta))/4 + assert Rotation.d(2, 0, -1, beta).doit() == -sqrt(6)*sin(2*beta)/4 + assert Rotation.d(2, 0, -2, beta).doit() == sqrt(6)*sin(beta)**2/4 + assert Rotation.d(2, -1, 2, beta).doit() == (2*sin(beta) - sin(2*beta))/4 + assert Rotation.d(2, -1, 1, beta).doit() == (cos(beta) - cos(2*beta))/2 + assert Rotation.d(2, -1, 0, beta).doit() == sqrt(6)*sin(2*beta)/4 + assert Rotation.d(2, -1, -1, beta).doit() == (cos(beta) + cos(2*beta))/2 + assert Rotation.d(2, -1, -2, beta).doit() == -((cos(beta) + 1)*sin(beta))/2 + assert Rotation.d(2, -2, 2, beta).doit() == (3 - 4*cos(beta) + cos(2*beta))/8 + assert Rotation.d(2, -2, 1, beta).doit() == (2*sin(beta) - sin(2*beta))/4 + assert Rotation.d(2, -2, 0, beta).doit() == sqrt(6)*sin(beta)**2/4 + assert Rotation.d(2, -2, -1, beta).doit() == (cos(beta) + 1)*sin(beta)/2 + assert Rotation.d(2, -2, -2, beta).doit() == (3 + 4*cos(beta) + cos(2*beta))/8 + # Numerical tests + # j = 1/2 + assert Rotation.d(S.Half, S.Half, S.Half, pi/2).doit() == sqrt(2)/2 + assert Rotation.d(S.Half, S.Half, Rational(-1, 2), pi/2).doit() == -sqrt(2)/2 + assert Rotation.d(S.Half, Rational(-1, 2), S.Half, pi/2).doit() == sqrt(2)/2 + assert Rotation.d(S.Half, Rational(-1, 2), Rational(-1, 2), pi/2).doit() == sqrt(2)/2 + # j = 1 + assert Rotation.d(1, 1, 1, pi/2).doit() == S.Half + assert Rotation.d(1, 1, 0, pi/2).doit() == -sqrt(2)/2 + assert Rotation.d(1, 1, -1, pi/2).doit() == S.Half + assert Rotation.d(1, 0, 1, pi/2).doit() == sqrt(2)/2 + assert Rotation.d(1, 0, 0, pi/2).doit() == 0 + assert Rotation.d(1, 0, -1, pi/2).doit() == -sqrt(2)/2 + assert Rotation.d(1, -1, 1, pi/2).doit() == S.Half + assert Rotation.d(1, -1, 0, pi/2).doit() == sqrt(2)/2 + assert Rotation.d(1, -1, -1, pi/2).doit() == S.Half + # j = 3/2 + assert Rotation.d(Rational(3, 2), Rational(3, 2), Rational(3, 2), pi/2).doit() == sqrt(2)/4 + assert Rotation.d(Rational(3, 2), Rational(3, 2), S.Half, pi/2).doit() == -sqrt(6)/4 + assert Rotation.d(Rational(3, 2), Rational(3, 2), Rational(-1, 2), pi/2).doit() == sqrt(6)/4 + assert Rotation.d(Rational(3, 2), Rational(3, 2), Rational(-3, 2), pi/2).doit() == -sqrt(2)/4 + assert Rotation.d(Rational(3, 2), S.Half, Rational(3, 2), pi/2).doit() == sqrt(6)/4 + assert Rotation.d(Rational(3, 2), S.Half, S.Half, pi/2).doit() == -sqrt(2)/4 + assert Rotation.d(Rational(3, 2), S.Half, Rational(-1, 2), pi/2).doit() == -sqrt(2)/4 + assert Rotation.d(Rational(3, 2), S.Half, Rational(-3, 2), pi/2).doit() == sqrt(6)/4 + assert Rotation.d(Rational(3, 2), Rational(-1, 2), Rational(3, 2), pi/2).doit() == sqrt(6)/4 + assert Rotation.d(Rational(3, 2), Rational(-1, 2), S.Half, pi/2).doit() == sqrt(2)/4 + assert Rotation.d(Rational(3, 2), Rational(-1, 2), Rational(-1, 2), pi/2).doit() == -sqrt(2)/4 + assert Rotation.d(Rational(3, 2), Rational(-1, 2), Rational(-3, 2), pi/2).doit() == -sqrt(6)/4 + assert Rotation.d(Rational(3, 2), Rational(-3, 2), Rational(3, 2), pi/2).doit() == sqrt(2)/4 + assert Rotation.d(Rational(3, 2), Rational(-3, 2), S.Half, pi/2).doit() == sqrt(6)/4 + assert Rotation.d(Rational(3, 2), Rational(-3, 2), Rational(-1, 2), pi/2).doit() == sqrt(6)/4 + assert Rotation.d(Rational(3, 2), Rational(-3, 2), Rational(-3, 2), pi/2).doit() == sqrt(2)/4 + # j = 2 + assert Rotation.d(2, 2, 2, pi/2).doit() == Rational(1, 4) + assert Rotation.d(2, 2, 1, pi/2).doit() == Rational(-1, 2) + assert Rotation.d(2, 2, 0, pi/2).doit() == sqrt(6)/4 + assert Rotation.d(2, 2, -1, pi/2).doit() == Rational(-1, 2) + assert Rotation.d(2, 2, -2, pi/2).doit() == Rational(1, 4) + assert Rotation.d(2, 1, 2, pi/2).doit() == S.Half + assert Rotation.d(2, 1, 1, pi/2).doit() == Rational(-1, 2) + assert Rotation.d(2, 1, 0, pi/2).doit() == 0 + assert Rotation.d(2, 1, -1, pi/2).doit() == S.Half + assert Rotation.d(2, 1, -2, pi/2).doit() == Rational(-1, 2) + assert Rotation.d(2, 0, 2, pi/2).doit() == sqrt(6)/4 + assert Rotation.d(2, 0, 1, pi/2).doit() == 0 + assert Rotation.d(2, 0, 0, pi/2).doit() == Rational(-1, 2) + assert Rotation.d(2, 0, -1, pi/2).doit() == 0 + assert Rotation.d(2, 0, -2, pi/2).doit() == sqrt(6)/4 + assert Rotation.d(2, -1, 2, pi/2).doit() == S.Half + assert Rotation.d(2, -1, 1, pi/2).doit() == S.Half + assert Rotation.d(2, -1, 0, pi/2).doit() == 0 + assert Rotation.d(2, -1, -1, pi/2).doit() == Rational(-1, 2) + assert Rotation.d(2, -1, -2, pi/2).doit() == Rational(-1, 2) + assert Rotation.d(2, -2, 2, pi/2).doit() == Rational(1, 4) + assert Rotation.d(2, -2, 1, pi/2).doit() == S.Half + assert Rotation.d(2, -2, 0, pi/2).doit() == sqrt(6)/4 + assert Rotation.d(2, -2, -1, pi/2).doit() == S.Half + assert Rotation.d(2, -2, -2, pi/2).doit() == Rational(1, 4) + + +def test_rotation_d(): + # Symbolic tests + # j = 1/2 + assert Rotation.D(S.Half, S.Half, S.Half, alpha, beta, gamma).doit() == \ + cos(beta/2)*exp(-I*alpha/2)*exp(-I*gamma/2) + assert Rotation.D(S.Half, S.Half, Rational(-1, 2), alpha, beta, gamma).doit() == \ + -sin(beta/2)*exp(-I*alpha/2)*exp(I*gamma/2) + assert Rotation.D(S.Half, Rational(-1, 2), S.Half, alpha, beta, gamma).doit() == \ + sin(beta/2)*exp(I*alpha/2)*exp(-I*gamma/2) + assert Rotation.D(S.Half, Rational(-1, 2), Rational(-1, 2), alpha, beta, gamma).doit() == \ + cos(beta/2)*exp(I*alpha/2)*exp(I*gamma/2) + # j = 1 + assert Rotation.D(1, 1, 1, alpha, beta, gamma).doit() == \ + (1 + cos(beta))/2*exp(-I*alpha)*exp(-I*gamma) + assert Rotation.D(1, 1, 0, alpha, beta, gamma).doit() == -sin( + beta)/sqrt(2)*exp(-I*alpha) + assert Rotation.D(1, 1, -1, alpha, beta, gamma).doit() == \ + (1 - cos(beta))/2*exp(-I*alpha)*exp(I*gamma) + assert Rotation.D(1, 0, 1, alpha, beta, gamma).doit() == \ + sin(beta)/sqrt(2)*exp(-I*gamma) + assert Rotation.D(1, 0, 0, alpha, beta, gamma).doit() == cos(beta) + assert Rotation.D(1, 0, -1, alpha, beta, gamma).doit() == \ + -sin(beta)/sqrt(2)*exp(I*gamma) + assert Rotation.D(1, -1, 1, alpha, beta, gamma).doit() == \ + (1 - cos(beta))/2*exp(I*alpha)*exp(-I*gamma) + assert Rotation.D(1, -1, 0, alpha, beta, gamma).doit() == \ + sin(beta)/sqrt(2)*exp(I*alpha) + assert Rotation.D(1, -1, -1, alpha, beta, gamma).doit() == \ + (1 + cos(beta))/2*exp(I*alpha)*exp(I*gamma) + # j = 3/2 + assert Rotation.D(Rational(3, 2), Rational(3, 2), Rational(3, 2), alpha, beta, gamma).doit() == \ + (3*cos(beta/2) + cos(beta*Rational(3, 2)))/4*exp(I*alpha*Rational(-3, 2))*exp(I*gamma*Rational(-3, 2)) + assert Rotation.D(Rational(3, 2), Rational(3, 2), S.Half, alpha, beta, gamma).doit() == \ + -sqrt(3)*(sin(beta/2) + sin(beta*Rational(3, 2)))/4*exp(I*alpha*Rational(-3, 2))*exp(-I*gamma/2) + assert Rotation.D(Rational(3, 2), Rational(3, 2), Rational(-1, 2), alpha, beta, gamma).doit() == \ + sqrt(3)*(cos(beta/2) - cos(beta*Rational(3, 2)))/4*exp(I*alpha*Rational(-3, 2))*exp(I*gamma/2) + assert Rotation.D(Rational(3, 2), Rational(3, 2), Rational(-3, 2), alpha, beta, gamma).doit() == \ + (-3*sin(beta/2) + sin(beta*Rational(3, 2)))/4*exp(I*alpha*Rational(-3, 2))*exp(I*gamma*Rational(3, 2)) + assert Rotation.D(Rational(3, 2), S.Half, Rational(3, 2), alpha, beta, gamma).doit() == \ + sqrt(3)*(sin(beta/2) + sin(beta*Rational(3, 2)))/4*exp(-I*alpha/2)*exp(I*gamma*Rational(-3, 2)) + assert Rotation.D(Rational(3, 2), S.Half, S.Half, alpha, beta, gamma).doit() == \ + (cos(beta/2) + 3*cos(beta*Rational(3, 2)))/4*exp(-I*alpha/2)*exp(-I*gamma/2) + assert Rotation.D(Rational(3, 2), S.Half, Rational(-1, 2), alpha, beta, gamma).doit() == \ + (sin(beta/2) - 3*sin(beta*Rational(3, 2)))/4*exp(-I*alpha/2)*exp(I*gamma/2) + assert Rotation.D(Rational(3, 2), S.Half, Rational(-3, 2), alpha, beta, gamma).doit() == \ + sqrt(3)*(cos(beta/2) - cos(beta*Rational(3, 2)))/4*exp(-I*alpha/2)*exp(I*gamma*Rational(3, 2)) + assert Rotation.D(Rational(3, 2), Rational(-1, 2), Rational(3, 2), alpha, beta, gamma).doit() == \ + sqrt(3)*(cos(beta/2) - cos(beta*Rational(3, 2)))/4*exp(I*alpha/2)*exp(I*gamma*Rational(-3, 2)) + assert Rotation.D(Rational(3, 2), Rational(-1, 2), S.Half, alpha, beta, gamma).doit() == \ + (-sin(beta/2) + 3*sin(beta*Rational(3, 2)))/4*exp(I*alpha/2)*exp(-I*gamma/2) + assert Rotation.D(Rational(3, 2), Rational(-1, 2), Rational(-1, 2), alpha, beta, gamma).doit() == \ + (cos(beta/2) + 3*cos(beta*Rational(3, 2)))/4*exp(I*alpha/2)*exp(I*gamma/2) + assert Rotation.D(Rational(3, 2), Rational(-1, 2), Rational(-3, 2), alpha, beta, gamma).doit() == \ + -sqrt(3)*(sin(beta/2) + sin(beta*Rational(3, 2)))/4*exp(I*alpha/2)*exp(I*gamma*Rational(3, 2)) + assert Rotation.D(Rational(3, 2), Rational(-3, 2), Rational(3, 2), alpha, beta, gamma).doit() == \ + (3*sin(beta/2) - sin(beta*Rational(3, 2)))/4*exp(I*alpha*Rational(3, 2))*exp(I*gamma*Rational(-3, 2)) + assert Rotation.D(Rational(3, 2), Rational(-3, 2), S.Half, alpha, beta, gamma).doit() == \ + sqrt(3)*(cos(beta/2) - cos(beta*Rational(3, 2)))/4*exp(I*alpha*Rational(3, 2))*exp(-I*gamma/2) + assert Rotation.D(Rational(3, 2), Rational(-3, 2), Rational(-1, 2), alpha, beta, gamma).doit() == \ + sqrt(3)*(sin(beta/2) + sin(beta*Rational(3, 2)))/4*exp(I*alpha*Rational(3, 2))*exp(I*gamma/2) + assert Rotation.D(Rational(3, 2), Rational(-3, 2), Rational(-3, 2), alpha, beta, gamma).doit() == \ + (3*cos(beta/2) + cos(beta*Rational(3, 2)))/4*exp(I*alpha*Rational(3, 2))*exp(I*gamma*Rational(3, 2)) + # j = 2 + assert Rotation.D(2, 2, 2, alpha, beta, gamma).doit() == \ + (3 + 4*cos(beta) + cos(2*beta))/8*exp(-2*I*alpha)*exp(-2*I*gamma) + assert Rotation.D(2, 2, 1, alpha, beta, gamma).doit() == \ + -((cos(beta) + 1)*exp(-2*I*alpha)*exp(-I*gamma)*sin(beta))/2 + assert Rotation.D(2, 2, 0, alpha, beta, gamma).doit() == \ + sqrt(6)*sin(beta)**2/4*exp(-2*I*alpha) + assert Rotation.D(2, 2, -1, alpha, beta, gamma).doit() == \ + (cos(beta) - 1)*sin(beta)/2*exp(-2*I*alpha)*exp(I*gamma) + assert Rotation.D(2, 2, -2, alpha, beta, gamma).doit() == \ + (3 - 4*cos(beta) + cos(2*beta))/8*exp(-2*I*alpha)*exp(2*I*gamma) + assert Rotation.D(2, 1, 2, alpha, beta, gamma).doit() == \ + (cos(beta) + 1)*sin(beta)/2*exp(-I*alpha)*exp(-2*I*gamma) + assert Rotation.D(2, 1, 1, alpha, beta, gamma).doit() == \ + (cos(beta) + cos(2*beta))/2*exp(-I*alpha)*exp(-I*gamma) + assert Rotation.D(2, 1, 0, alpha, beta, gamma).doit() == -sqrt(6)* \ + sin(2*beta)/4*exp(-I*alpha) + assert Rotation.D(2, 1, -1, alpha, beta, gamma).doit() == \ + (cos(beta) - cos(2*beta))/2*exp(-I*alpha)*exp(I*gamma) + assert Rotation.D(2, 1, -2, alpha, beta, gamma).doit() == \ + (cos(beta) - 1)*sin(beta)/2*exp(-I*alpha)*exp(2*I*gamma) + assert Rotation.D(2, 0, 2, alpha, beta, gamma).doit() == \ + sqrt(6)*sin(beta)**2/4*exp(-2*I*gamma) + assert Rotation.D(2, 0, 1, alpha, beta, gamma).doit() == sqrt(6)* \ + sin(2*beta)/4*exp(-I*gamma) + assert Rotation.D( + 2, 0, 0, alpha, beta, gamma).doit() == (1 + 3*cos(2*beta))/4 + assert Rotation.D(2, 0, -1, alpha, beta, gamma).doit() == -sqrt(6)* \ + sin(2*beta)/4*exp(I*gamma) + assert Rotation.D(2, 0, -2, alpha, beta, gamma).doit() == \ + sqrt(6)*sin(beta)**2/4*exp(2*I*gamma) + assert Rotation.D(2, -1, 2, alpha, beta, gamma).doit() == \ + (2*sin(beta) - sin(2*beta))/4*exp(I*alpha)*exp(-2*I*gamma) + assert Rotation.D(2, -1, 1, alpha, beta, gamma).doit() == \ + (cos(beta) - cos(2*beta))/2*exp(I*alpha)*exp(-I*gamma) + assert Rotation.D(2, -1, 0, alpha, beta, gamma).doit() == sqrt(6)* \ + sin(2*beta)/4*exp(I*alpha) + assert Rotation.D(2, -1, -1, alpha, beta, gamma).doit() == \ + (cos(beta) + cos(2*beta))/2*exp(I*alpha)*exp(I*gamma) + assert Rotation.D(2, -1, -2, alpha, beta, gamma).doit() == \ + -((cos(beta) + 1)*sin(beta))/2*exp(I*alpha)*exp(2*I*gamma) + assert Rotation.D(2, -2, 2, alpha, beta, gamma).doit() == \ + (3 - 4*cos(beta) + cos(2*beta))/8*exp(2*I*alpha)*exp(-2*I*gamma) + assert Rotation.D(2, -2, 1, alpha, beta, gamma).doit() == \ + (2*sin(beta) - sin(2*beta))/4*exp(2*I*alpha)*exp(-I*gamma) + assert Rotation.D(2, -2, 0, alpha, beta, gamma).doit() == \ + sqrt(6)*sin(beta)**2/4*exp(2*I*alpha) + assert Rotation.D(2, -2, -1, alpha, beta, gamma).doit() == \ + (cos(beta) + 1)*sin(beta)/2*exp(2*I*alpha)*exp(I*gamma) + assert Rotation.D(2, -2, -2, alpha, beta, gamma).doit() == \ + (3 + 4*cos(beta) + cos(2*beta))/8*exp(2*I*alpha)*exp(2*I*gamma) + # Numerical tests + # j = 1/2 + assert Rotation.D( + S.Half, S.Half, S.Half, pi/2, pi/2, pi/2).doit() == -I*sqrt(2)/2 + assert Rotation.D( + S.Half, S.Half, Rational(-1, 2), pi/2, pi/2, pi/2).doit() == -sqrt(2)/2 + assert Rotation.D( + S.Half, Rational(-1, 2), S.Half, pi/2, pi/2, pi/2).doit() == sqrt(2)/2 + assert Rotation.D( + S.Half, Rational(-1, 2), Rational(-1, 2), pi/2, pi/2, pi/2).doit() == I*sqrt(2)/2 + # j = 1 + assert Rotation.D(1, 1, 1, pi/2, pi/2, pi/2).doit() == Rational(-1, 2) + assert Rotation.D(1, 1, 0, pi/2, pi/2, pi/2).doit() == I*sqrt(2)/2 + assert Rotation.D(1, 1, -1, pi/2, pi/2, pi/2).doit() == S.Half + assert Rotation.D(1, 0, 1, pi/2, pi/2, pi/2).doit() == -I*sqrt(2)/2 + assert Rotation.D(1, 0, 0, pi/2, pi/2, pi/2).doit() == 0 + assert Rotation.D(1, 0, -1, pi/2, pi/2, pi/2).doit() == -I*sqrt(2)/2 + assert Rotation.D(1, -1, 1, pi/2, pi/2, pi/2).doit() == S.Half + assert Rotation.D(1, -1, 0, pi/2, pi/2, pi/2).doit() == I*sqrt(2)/2 + assert Rotation.D(1, -1, -1, pi/2, pi/2, pi/2).doit() == Rational(-1, 2) + # j = 3/2 + assert Rotation.D( + Rational(3, 2), Rational(3, 2), Rational(3, 2), pi/2, pi/2, pi/2).doit() == I*sqrt(2)/4 + assert Rotation.D( + Rational(3, 2), Rational(3, 2), S.Half, pi/2, pi/2, pi/2).doit() == sqrt(6)/4 + assert Rotation.D( + Rational(3, 2), Rational(3, 2), Rational(-1, 2), pi/2, pi/2, pi/2).doit() == -I*sqrt(6)/4 + assert Rotation.D( + Rational(3, 2), Rational(3, 2), Rational(-3, 2), pi/2, pi/2, pi/2).doit() == -sqrt(2)/4 + assert Rotation.D( + Rational(3, 2), S.Half, Rational(3, 2), pi/2, pi/2, pi/2).doit() == -sqrt(6)/4 + assert Rotation.D( + Rational(3, 2), S.Half, S.Half, pi/2, pi/2, pi/2).doit() == I*sqrt(2)/4 + assert Rotation.D( + Rational(3, 2), S.Half, Rational(-1, 2), pi/2, pi/2, pi/2).doit() == -sqrt(2)/4 + assert Rotation.D( + Rational(3, 2), S.Half, Rational(-3, 2), pi/2, pi/2, pi/2).doit() == I*sqrt(6)/4 + assert Rotation.D( + Rational(3, 2), Rational(-1, 2), Rational(3, 2), pi/2, pi/2, pi/2).doit() == -I*sqrt(6)/4 + assert Rotation.D( + Rational(3, 2), Rational(-1, 2), S.Half, pi/2, pi/2, pi/2).doit() == sqrt(2)/4 + assert Rotation.D( + Rational(3, 2), Rational(-1, 2), Rational(-1, 2), pi/2, pi/2, pi/2).doit() == -I*sqrt(2)/4 + assert Rotation.D( + Rational(3, 2), Rational(-1, 2), Rational(-3, 2), pi/2, pi/2, pi/2).doit() == sqrt(6)/4 + assert Rotation.D( + Rational(3, 2), Rational(-3, 2), Rational(3, 2), pi/2, pi/2, pi/2).doit() == sqrt(2)/4 + assert Rotation.D( + Rational(3, 2), Rational(-3, 2), S.Half, pi/2, pi/2, pi/2).doit() == I*sqrt(6)/4 + assert Rotation.D( + Rational(3, 2), Rational(-3, 2), Rational(-1, 2), pi/2, pi/2, pi/2).doit() == -sqrt(6)/4 + assert Rotation.D( + Rational(3, 2), Rational(-3, 2), Rational(-3, 2), pi/2, pi/2, pi/2).doit() == -I*sqrt(2)/4 + # j = 2 + assert Rotation.D(2, 2, 2, pi/2, pi/2, pi/2).doit() == Rational(1, 4) + assert Rotation.D(2, 2, 1, pi/2, pi/2, pi/2).doit() == -I/2 + assert Rotation.D(2, 2, 0, pi/2, pi/2, pi/2).doit() == -sqrt(6)/4 + assert Rotation.D(2, 2, -1, pi/2, pi/2, pi/2).doit() == I/2 + assert Rotation.D(2, 2, -2, pi/2, pi/2, pi/2).doit() == Rational(1, 4) + assert Rotation.D(2, 1, 2, pi/2, pi/2, pi/2).doit() == I/2 + assert Rotation.D(2, 1, 1, pi/2, pi/2, pi/2).doit() == S.Half + assert Rotation.D(2, 1, 0, pi/2, pi/2, pi/2).doit() == 0 + assert Rotation.D(2, 1, -1, pi/2, pi/2, pi/2).doit() == S.Half + assert Rotation.D(2, 1, -2, pi/2, pi/2, pi/2).doit() == -I/2 + assert Rotation.D(2, 0, 2, pi/2, pi/2, pi/2).doit() == -sqrt(6)/4 + assert Rotation.D(2, 0, 1, pi/2, pi/2, pi/2).doit() == 0 + assert Rotation.D(2, 0, 0, pi/2, pi/2, pi/2).doit() == Rational(-1, 2) + assert Rotation.D(2, 0, -1, pi/2, pi/2, pi/2).doit() == 0 + assert Rotation.D(2, 0, -2, pi/2, pi/2, pi/2).doit() == -sqrt(6)/4 + assert Rotation.D(2, -1, 2, pi/2, pi/2, pi/2).doit() == -I/2 + assert Rotation.D(2, -1, 1, pi/2, pi/2, pi/2).doit() == S.Half + assert Rotation.D(2, -1, 0, pi/2, pi/2, pi/2).doit() == 0 + assert Rotation.D(2, -1, -1, pi/2, pi/2, pi/2).doit() == S.Half + assert Rotation.D(2, -1, -2, pi/2, pi/2, pi/2).doit() == I/2 + assert Rotation.D(2, -2, 2, pi/2, pi/2, pi/2).doit() == Rational(1, 4) + assert Rotation.D(2, -2, 1, pi/2, pi/2, pi/2).doit() == I/2 + assert Rotation.D(2, -2, 0, pi/2, pi/2, pi/2).doit() == -sqrt(6)/4 + assert Rotation.D(2, -2, -1, pi/2, pi/2, pi/2).doit() == -I/2 + assert Rotation.D(2, -2, -2, pi/2, pi/2, pi/2).doit() == Rational(1, 4) + + +def test_wignerd(): + assert Rotation.D( + j, m, mp, alpha, beta, gamma) == WignerD(j, m, mp, alpha, beta, gamma) + assert Rotation.d(j, m, mp, beta) == WignerD(j, m, mp, 0, beta, 0) + +def test_wignerD(): + i,j=symbols('i j') + assert Rotation.D(1, 1, 1, 0, 0, 0) == WignerD(1, 1, 1, 0, 0, 0) + assert Rotation.D(1, 1, 2, 0, 0, 0) == WignerD(1, 1, 2, 0, 0, 0) + assert Rotation.D(1, i**2 - j**2, i**2 - j**2, 0, 0, 0) == WignerD(1, i**2 - j**2, i**2 - j**2, 0, 0, 0) + assert Rotation.D(1, i, i, 0, 0, 0) == WignerD(1, i, i, 0, 0, 0) + assert Rotation.D(1, i, i+1, 0, 0, 0) == WignerD(1, i, i+1, 0, 0, 0) + assert Rotation.D(1, 0, 0, 0, 0, 0) == WignerD(1, 0, 0, 0, 0, 0) + +def test_jplus(): + assert Commutator(Jplus, Jminus).doit() == 2*hbar*Jz + assert Jplus.matrix_element(1, 1, 1, 1) == 0 + assert Jplus.rewrite('xyz') == Jx + I*Jy + # Normal operators, normal states + # Numerical + assert qapply(Jplus*JxKet(1, 1)) == \ + -hbar*sqrt(2)*JxKet(1, 0)/2 + hbar*JxKet(1, 1) + assert qapply(Jplus*JyKet(1, 1)) == \ + hbar*sqrt(2)*JyKet(1, 0)/2 + I*hbar*JyKet(1, 1) + assert qapply(Jplus*JzKet(1, 1)) == 0 + # Symbolic + assert qapply(Jplus*JxKet(j, m)) == \ + Sum(hbar * sqrt(-mi**2 - mi + j**2 + j) * WignerD(j, mi, m, 0, pi/2, 0) * + Sum(WignerD(j, mi1, mi + 1, 0, pi*Rational(3, 2), 0) * JxKet(j, mi1), + (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jplus*JyKet(j, m)) == \ + Sum(hbar * sqrt(j**2 + j - mi**2 - mi) * WignerD(j, mi, m, pi*Rational(3, 2), -pi/2, pi/2) * + Sum(WignerD(j, mi1, mi + 1, pi*Rational(3, 2), pi/2, pi/2) * JyKet(j, mi1), + (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jplus*JzKet(j, m)) == \ + hbar*sqrt(j**2 + j - m**2 - m)*JzKet(j, m + 1) + # Normal operators, coupled states + # Numerical + assert qapply(Jplus*JxKetCoupled(1, 1, (1, 1))) == -hbar*sqrt(2) * \ + JxKetCoupled(1, 0, (1, 1))/2 + hbar*JxKetCoupled(1, 1, (1, 1)) + assert qapply(Jplus*JyKetCoupled(1, 1, (1, 1))) == hbar*sqrt(2) * \ + JyKetCoupled(1, 0, (1, 1))/2 + I*hbar*JyKetCoupled(1, 1, (1, 1)) + assert qapply(Jplus*JzKet(1, 1)) == 0 + # Symbolic + assert qapply(Jplus*JxKetCoupled(j, m, (j1, j2))) == \ + Sum(hbar * sqrt(-mi**2 - mi + j**2 + j) * WignerD(j, mi, m, 0, pi/2, 0) * + Sum( + WignerD( + j, mi1, mi + 1, 0, pi*Rational(3, 2), 0) * JxKetCoupled(j, mi1, (j1, j2)), + (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jplus*JyKetCoupled(j, m, (j1, j2))) == \ + Sum(hbar * sqrt(j**2 + j - mi**2 - mi) * WignerD(j, mi, m, pi*Rational(3, 2), -pi/2, pi/2) * + Sum( + WignerD(j, mi1, mi + 1, pi*Rational(3, 2), pi/2, pi/2) * + JyKetCoupled(j, mi1, (j1, j2)), + (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jplus*JzKetCoupled(j, m, (j1, j2))) == \ + hbar*sqrt(j**2 + j - m**2 - m)*JzKetCoupled(j, m + 1, (j1, j2)) + # Uncoupled operators, uncoupled states + # Numerical + assert qapply(TensorProduct(Jplus, 1)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \ + -hbar*sqrt(2)*TensorProduct(JxKet(1, 0), JxKet(1, -1))/2 + \ + hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1)) + assert qapply(TensorProduct(1, Jplus)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \ + -hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1)) + \ + hbar*sqrt(2)*TensorProduct(JxKet(1, 1), JxKet(1, 0))/2 + assert qapply(TensorProduct(Jplus, 1)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \ + hbar*sqrt(2)*TensorProduct(JyKet(1, 0), JyKet(1, -1))/2 + \ + hbar*I*TensorProduct(JyKet(1, 1), JyKet(1, -1)) + assert qapply(TensorProduct(1, Jplus)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \ + -hbar*I*TensorProduct(JyKet(1, 1), JyKet(1, -1)) + \ + hbar*sqrt(2)*TensorProduct(JyKet(1, 1), JyKet(1, 0))/2 + assert qapply( + TensorProduct(Jplus, 1)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == 0 + assert qapply(TensorProduct(1, Jplus)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \ + hbar*sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, 0)) + # Symbolic + assert qapply(TensorProduct(Jplus, 1)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + TensorProduct(Sum(hbar * sqrt(-mi**2 - mi + j1**2 + j1) * WignerD(j1, mi, m1, 0, pi/2, 0) * + Sum(WignerD(j1, mi1, mi + 1, 0, pi*Rational(3, 2), 0) * JxKet(j1, mi1), + (mi1, -j1, j1)), (mi, -j1, j1)), JxKet(j2, m2)) + assert qapply(TensorProduct(1, Jplus)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + TensorProduct(JxKet(j1, m1), Sum(hbar * sqrt(-mi**2 - mi + j2**2 + j2) * WignerD(j2, mi, m2, 0, pi/2, 0) * + Sum(WignerD(j2, mi1, mi + 1, 0, pi*Rational(3, 2), 0) * JxKet(j2, mi1), + (mi1, -j2, j2)), (mi, -j2, j2))) + assert qapply(TensorProduct(Jplus, 1)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + TensorProduct(Sum(hbar * sqrt(j1**2 + j1 - mi**2 - mi) * WignerD(j1, mi, m1, pi*Rational(3, 2), -pi/2, pi/2) * + Sum(WignerD(j1, mi1, mi + 1, pi*Rational(3, 2), pi/2, pi/2) * JyKet(j1, mi1), + (mi1, -j1, j1)), (mi, -j1, j1)), JyKet(j2, m2)) + assert qapply(TensorProduct(1, Jplus)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + TensorProduct(JyKet(j1, m1), Sum(hbar * sqrt(j2**2 + j2 - mi**2 - mi) * WignerD(j2, mi, m2, pi*Rational(3, 2), -pi/2, pi/2) * + Sum(WignerD(j2, mi1, mi + 1, pi*Rational(3, 2), pi/2, pi/2) * JyKet(j2, mi1), + (mi1, -j2, j2)), (mi, -j2, j2))) + assert qapply(TensorProduct(Jplus, 1)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + hbar*sqrt( + j1**2 + j1 - m1**2 - m1)*TensorProduct(JzKet(j1, m1 + 1), JzKet(j2, m2)) + assert qapply(TensorProduct(1, Jplus)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + hbar*sqrt( + j2**2 + j2 - m2**2 - m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 + 1)) + + +def test_jminus(): + assert qapply(Jminus*JzKet(1, -1)) == 0 + assert Jminus.matrix_element(1, 0, 1, 1) == sqrt(2)*hbar + assert Jminus.rewrite('xyz') == Jx - I*Jy + # Normal operators, normal states + # Numerical + assert qapply(Jminus*JxKet(1, 1)) == \ + hbar*sqrt(2)*JxKet(1, 0)/2 + hbar*JxKet(1, 1) + assert qapply(Jminus*JyKet(1, 1)) == \ + hbar*sqrt(2)*JyKet(1, 0)/2 - hbar*I*JyKet(1, 1) + assert qapply(Jminus*JzKet(1, 1)) == sqrt(2)*hbar*JzKet(1, 0) + # Symbolic + assert qapply(Jminus*JxKet(j, m)) == \ + Sum(hbar*sqrt(j**2 + j - mi**2 + mi)*WignerD(j, mi, m, 0, pi/2, 0) * + Sum(WignerD(j, mi1, mi - 1, 0, pi*Rational(3, 2), 0)*JxKet(j, mi1), + (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jminus*JyKet(j, m)) == \ + Sum(hbar*sqrt(j**2 + j - mi**2 + mi)*WignerD(j, mi, m, pi*Rational(3, 2), -pi/2, pi/2) * + Sum(WignerD(j, mi1, mi - 1, pi*Rational(3, 2), pi/2, pi/2)*JyKet(j, mi1), + (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jminus*JzKet(j, m)) == \ + hbar*sqrt(j**2 + j - m**2 + m)*JzKet(j, m - 1) + # Normal operators, coupled states + # Numerical + assert qapply(Jminus*JxKetCoupled(1, 1, (1, 1))) == \ + hbar*sqrt(2)*JxKetCoupled(1, 0, (1, 1))/2 + \ + hbar*JxKetCoupled(1, 1, (1, 1)) + assert qapply(Jminus*JyKetCoupled(1, 1, (1, 1))) == \ + hbar*sqrt(2)*JyKetCoupled(1, 0, (1, 1))/2 - \ + hbar*I*JyKetCoupled(1, 1, (1, 1)) + assert qapply(Jminus*JzKetCoupled(1, 1, (1, 1))) == \ + sqrt(2)*hbar*JzKetCoupled(1, 0, (1, 1)) + # Symbolic + assert qapply(Jminus*JxKetCoupled(j, m, (j1, j2))) == \ + Sum(hbar*sqrt(j**2 + j - mi**2 + mi)*WignerD(j, mi, m, 0, pi/2, 0) * + Sum(WignerD(j, mi1, mi - 1, 0, pi*Rational(3, 2), 0)*JxKetCoupled(j, mi1, (j1, j2)), + (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jminus*JyKetCoupled(j, m, (j1, j2))) == \ + Sum(hbar*sqrt(j**2 + j - mi**2 + mi)*WignerD(j, mi, m, pi*Rational(3, 2), -pi/2, pi/2) * + Sum( + WignerD(j, mi1, mi - 1, pi*Rational(3, 2), pi/2, pi/2)* + JyKetCoupled(j, mi1, (j1, j2)), + (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jminus*JzKetCoupled(j, m, (j1, j2))) == \ + hbar*sqrt(j**2 + j - m**2 + m)*JzKetCoupled(j, m - 1, (j1, j2)) + # Uncoupled operators, uncoupled states + # Numerical + assert qapply(TensorProduct(Jminus, 1)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \ + hbar*sqrt(2)*TensorProduct(JxKet(1, 0), JxKet(1, -1))/2 + \ + hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1)) + assert qapply(TensorProduct(1, Jminus)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \ + -hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1)) - \ + hbar*sqrt(2)*TensorProduct(JxKet(1, 1), JxKet(1, 0))/2 + assert qapply(TensorProduct(Jminus, 1)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \ + hbar*sqrt(2)*TensorProduct(JyKet(1, 0), JyKet(1, -1))/2 - \ + hbar*I*TensorProduct(JyKet(1, 1), JyKet(1, -1)) + assert qapply(TensorProduct(1, Jminus)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \ + hbar*I*TensorProduct(JyKet(1, 1), JyKet(1, -1)) + \ + hbar*sqrt(2)*TensorProduct(JyKet(1, 1), JyKet(1, 0))/2 + assert qapply(TensorProduct(Jminus, 1)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \ + sqrt(2)*hbar*TensorProduct(JzKet(1, 0), JzKet(1, -1)) + assert qapply(TensorProduct( + 1, Jminus)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == 0 + # Symbolic + assert qapply(TensorProduct(Jminus, 1)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + TensorProduct(Sum(hbar*sqrt(j1**2 + j1 - mi**2 + mi)*WignerD(j1, mi, m1, 0, pi/2, 0) * + Sum(WignerD(j1, mi1, mi - 1, 0, pi*Rational(3, 2), 0)*JxKet(j1, mi1), + (mi1, -j1, j1)), (mi, -j1, j1)), JxKet(j2, m2)) + assert qapply(TensorProduct(1, Jminus)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + TensorProduct(JxKet(j1, m1), Sum(hbar*sqrt(j2**2 + j2 - mi**2 + mi)*WignerD(j2, mi, m2, 0, pi/2, 0) * + Sum(WignerD(j2, mi1, mi - 1, 0, pi*Rational(3, 2), 0)*JxKet(j2, mi1), + (mi1, -j2, j2)), (mi, -j2, j2))) + assert qapply(TensorProduct(Jminus, 1)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + TensorProduct(Sum(hbar*sqrt(j1**2 + j1 - mi**2 + mi)*WignerD(j1, mi, m1, pi*Rational(3, 2), -pi/2, pi/2) * + Sum(WignerD(j1, mi1, mi - 1, pi*Rational(3, 2), pi/2, pi/2)*JyKet(j1, mi1), + (mi1, -j1, j1)), (mi, -j1, j1)), JyKet(j2, m2)) + assert qapply(TensorProduct(1, Jminus)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + TensorProduct(JyKet(j1, m1), Sum(hbar*sqrt(j2**2 + j2 - mi**2 + mi)*WignerD(j2, mi, m2, pi*Rational(3, 2), -pi/2, pi/2) * + Sum(WignerD(j2, mi1, mi - 1, pi*Rational(3, 2), pi/2, pi/2)*JyKet(j2, mi1), + (mi1, -j2, j2)), (mi, -j2, j2))) + assert qapply(TensorProduct(Jminus, 1)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + hbar*sqrt( + j1**2 + j1 - m1**2 + m1)*TensorProduct(JzKet(j1, m1 - 1), JzKet(j2, m2)) + assert qapply(TensorProduct(1, Jminus)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + hbar*sqrt( + j2**2 + j2 - m2**2 + m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 - 1)) + + +def test_j2(): + assert Commutator(J2, Jz).doit() == 0 + assert J2.matrix_element(1, 1, 1, 1) == 2*hbar**2 + # Normal operators, normal states + # Numerical + assert qapply(J2*JxKet(1, 1)) == 2*hbar**2*JxKet(1, 1) + assert qapply(J2*JyKet(1, 1)) == 2*hbar**2*JyKet(1, 1) + assert qapply(J2*JzKet(1, 1)) == 2*hbar**2*JzKet(1, 1) + # Symbolic + assert qapply(J2*JxKet(j, m)) == \ + hbar**2*j**2*JxKet(j, m) + hbar**2*j*JxKet(j, m) + assert qapply(J2*JyKet(j, m)) == \ + hbar**2*j**2*JyKet(j, m) + hbar**2*j*JyKet(j, m) + assert qapply(J2*JzKet(j, m)) == \ + hbar**2*j**2*JzKet(j, m) + hbar**2*j*JzKet(j, m) + # Normal operators, coupled states + # Numerical + assert qapply(J2*JxKetCoupled(1, 1, (1, 1))) == \ + 2*hbar**2*JxKetCoupled(1, 1, (1, 1)) + assert qapply(J2*JyKetCoupled(1, 1, (1, 1))) == \ + 2*hbar**2*JyKetCoupled(1, 1, (1, 1)) + assert qapply(J2*JzKetCoupled(1, 1, (1, 1))) == \ + 2*hbar**2*JzKetCoupled(1, 1, (1, 1)) + # Symbolic + assert qapply(J2*JxKetCoupled(j, m, (j1, j2))) == \ + hbar**2*j**2*JxKetCoupled(j, m, (j1, j2)) + \ + hbar**2*j*JxKetCoupled(j, m, (j1, j2)) + assert qapply(J2*JyKetCoupled(j, m, (j1, j2))) == \ + hbar**2*j**2*JyKetCoupled(j, m, (j1, j2)) + \ + hbar**2*j*JyKetCoupled(j, m, (j1, j2)) + assert qapply(J2*JzKetCoupled(j, m, (j1, j2))) == \ + hbar**2*j**2*JzKetCoupled(j, m, (j1, j2)) + \ + hbar**2*j*JzKetCoupled(j, m, (j1, j2)) + # Uncoupled operators, uncoupled states + # Numerical + assert qapply(TensorProduct(J2, 1)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \ + 2*hbar**2*TensorProduct(JxKet(1, 1), JxKet(1, -1)) + assert qapply(TensorProduct(1, J2)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \ + 2*hbar**2*TensorProduct(JxKet(1, 1), JxKet(1, -1)) + assert qapply(TensorProduct(J2, 1)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \ + 2*hbar**2*TensorProduct(JyKet(1, 1), JyKet(1, -1)) + assert qapply(TensorProduct(1, J2)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \ + 2*hbar**2*TensorProduct(JyKet(1, 1), JyKet(1, -1)) + assert qapply(TensorProduct(J2, 1)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \ + 2*hbar**2*TensorProduct(JzKet(1, 1), JzKet(1, -1)) + assert qapply(TensorProduct(1, J2)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \ + 2*hbar**2*TensorProduct(JzKet(1, 1), JzKet(1, -1)) + # Symbolic + assert qapply(TensorProduct(J2, 1)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + hbar**2*j1**2*TensorProduct(JxKet(j1, m1), JxKet(j2, m2)) + \ + hbar**2*j1*TensorProduct(JxKet(j1, m1), JxKet(j2, m2)) + assert qapply(TensorProduct(1, J2)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + hbar**2*j2**2*TensorProduct(JxKet(j1, m1), JxKet(j2, m2)) + \ + hbar**2*j2*TensorProduct(JxKet(j1, m1), JxKet(j2, m2)) + assert qapply(TensorProduct(J2, 1)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + hbar**2*j1**2*TensorProduct(JyKet(j1, m1), JyKet(j2, m2)) + \ + hbar**2*j1*TensorProduct(JyKet(j1, m1), JyKet(j2, m2)) + assert qapply(TensorProduct(1, J2)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + hbar**2*j2**2*TensorProduct(JyKet(j1, m1), JyKet(j2, m2)) + \ + hbar**2*j2*TensorProduct(JyKet(j1, m1), JyKet(j2, m2)) + assert qapply(TensorProduct(J2, 1)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + hbar**2*j1**2*TensorProduct(JzKet(j1, m1), JzKet(j2, m2)) + \ + hbar**2*j1*TensorProduct(JzKet(j1, m1), JzKet(j2, m2)) + assert qapply(TensorProduct(1, J2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + hbar**2*j2**2*TensorProduct(JzKet(j1, m1), JzKet(j2, m2)) + \ + hbar**2*j2*TensorProduct(JzKet(j1, m1), JzKet(j2, m2)) + + +def test_jx(): + assert Commutator(Jx, Jz).doit() == -I*hbar*Jy + assert Jx.rewrite('plusminus') == (Jminus + Jplus)/2 + assert represent(Jx, basis=Jz, j=1) == ( + represent(Jplus, basis=Jz, j=1) + represent(Jminus, basis=Jz, j=1))/2 + # Normal operators, normal states + # Numerical + assert qapply(Jx*JxKet(1, 1)) == hbar*JxKet(1, 1) + assert qapply(Jx*JyKet(1, 1)) == hbar*JyKet(1, 1) + assert qapply(Jx*JzKet(1, 1)) == sqrt(2)*hbar*JzKet(1, 0)/2 + # Symbolic + assert qapply(Jx*JxKet(j, m)) == hbar*m*JxKet(j, m) + assert qapply(Jx*JyKet(j, m)) == \ + Sum(hbar*mi*WignerD(j, mi, m, 0, 0, pi/2)*Sum(WignerD(j, + mi1, mi, pi*Rational(3, 2), 0, 0)*JyKet(j, mi1), (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jx*JzKet(j, m)) == \ + hbar*sqrt(j**2 + j - m**2 - m)*JzKet(j, m + 1)/2 + hbar*sqrt(j**2 + + j - m**2 + m)*JzKet(j, m - 1)/2 + # Normal operators, coupled states + # Numerical + assert qapply(Jx*JxKetCoupled(1, 1, (1, 1))) == \ + hbar*JxKetCoupled(1, 1, (1, 1)) + assert qapply(Jx*JyKetCoupled(1, 1, (1, 1))) == \ + hbar*JyKetCoupled(1, 1, (1, 1)) + assert qapply(Jx*JzKetCoupled(1, 1, (1, 1))) == \ + sqrt(2)*hbar*JzKetCoupled(1, 0, (1, 1))/2 + # Symbolic + assert qapply(Jx*JxKetCoupled(j, m, (j1, j2))) == \ + hbar*m*JxKetCoupled(j, m, (j1, j2)) + assert qapply(Jx*JyKetCoupled(j, m, (j1, j2))) == \ + Sum(hbar*mi*WignerD(j, mi, m, 0, 0, pi/2)*Sum(WignerD(j, mi1, mi, pi*Rational(3, 2), 0, 0)*JyKetCoupled(j, mi1, (j1, j2)), (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jx*JzKetCoupled(j, m, (j1, j2))) == \ + hbar*sqrt(j**2 + j - m**2 - m)*JzKetCoupled(j, m + 1, (j1, j2))/2 + \ + hbar*sqrt(j**2 + j - m**2 + m)*JzKetCoupled(j, m - 1, (j1, j2))/2 + # Normal operators, uncoupled states + # Numerical + assert qapply(Jx*TensorProduct(JxKet(1, 1), JxKet(1, 1))) == \ + 2*hbar*TensorProduct(JxKet(1, 1), JxKet(1, 1)) + assert qapply(Jx*TensorProduct(JyKet(1, 1), JyKet(1, 1))) == \ + hbar*TensorProduct(JyKet(1, 1), JyKet(1, 1)) + \ + hbar*TensorProduct(JyKet(1, 1), JyKet(1, 1)) + assert qapply(Jx*TensorProduct(JzKet(1, 1), JzKet(1, 1))) == \ + sqrt(2)*hbar*TensorProduct(JzKet(1, 1), JzKet(1, 0))/2 + \ + sqrt(2)*hbar*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2 + assert qapply(Jx*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == 0 + # Symbolic + assert qapply(Jx*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + hbar*m1*TensorProduct(JxKet(j1, m1), JxKet(j2, m2)) + \ + hbar*m2*TensorProduct(JxKet(j1, m1), JxKet(j2, m2)) + assert qapply(Jx*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, 0, 0, pi/2)*Sum(WignerD(j1, mi1, mi, pi*Rational(3, 2), 0, 0)*JyKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JyKet(j2, m2)) + \ + TensorProduct(JyKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, 0, 0, pi/2)*Sum(WignerD(j2, mi1, mi, pi*Rational(3, 2), 0, 0)*JyKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2))) + assert qapply(Jx*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + hbar*sqrt(j1**2 + j1 - m1**2 - m1)*TensorProduct(JzKet(j1, m1 + 1), JzKet(j2, m2))/2 + \ + hbar*sqrt(j1**2 + j1 - m1**2 + m1)*TensorProduct(JzKet(j1, m1 - 1), JzKet(j2, m2))/2 + \ + hbar*sqrt(j2**2 + j2 - m2**2 - m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 + 1))/2 + \ + hbar*sqrt( + j2**2 + j2 - m2**2 + m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 - 1))/2 + # Uncoupled operators, uncoupled states + # Numerical + assert qapply(TensorProduct(Jx, 1)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \ + hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1)) + assert qapply(TensorProduct(1, Jx)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \ + -hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1)) + assert qapply(TensorProduct(Jx, 1)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \ + hbar*TensorProduct(JyKet(1, 1), JyKet(1, -1)) + assert qapply(TensorProduct(1, Jx)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \ + -hbar*TensorProduct(JyKet(1, 1), JyKet(1, -1)) + assert qapply(TensorProduct(Jx, 1)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \ + hbar*sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, -1))/2 + assert qapply(TensorProduct(1, Jx)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \ + hbar*sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, 0))/2 + # Symbolic + assert qapply(TensorProduct(Jx, 1)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + hbar*m1*TensorProduct(JxKet(j1, m1), JxKet(j2, m2)) + assert qapply(TensorProduct(1, Jx)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + hbar*m2*TensorProduct(JxKet(j1, m1), JxKet(j2, m2)) + assert qapply(TensorProduct(Jx, 1)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, 0, 0, pi/2) * Sum(WignerD(j1, mi1, mi, pi*Rational(3, 2), 0, 0)*JyKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JyKet(j2, m2)) + assert qapply(TensorProduct(1, Jx)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + TensorProduct(JyKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, 0, 0, pi/2) * Sum(WignerD(j2, mi1, mi, pi*Rational(3, 2), 0, 0)*JyKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2))) + assert qapply(TensorProduct(Jx, 1)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + hbar*sqrt(j1**2 + j1 - m1**2 - m1)*TensorProduct(JzKet(j1, m1 + 1), JzKet(j2, m2))/2 + \ + hbar*sqrt( + j1**2 + j1 - m1**2 + m1)*TensorProduct(JzKet(j1, m1 - 1), JzKet(j2, m2))/2 + assert qapply(TensorProduct(1, Jx)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + hbar*sqrt(j2**2 + j2 - m2**2 - m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 + 1))/2 + \ + hbar*sqrt( + j2**2 + j2 - m2**2 + m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 - 1))/2 + + +def test_jy(): + assert Commutator(Jy, Jz).doit() == I*hbar*Jx + assert Jy.rewrite('plusminus') == (Jplus - Jminus)/(2*I) + assert represent(Jy, basis=Jz) == ( + represent(Jplus, basis=Jz) - represent(Jminus, basis=Jz))/(2*I) + # Normal operators, normal states + # Numerical + assert qapply(Jy*JxKet(1, 1)) == hbar*JxKet(1, 1) + assert qapply(Jy*JyKet(1, 1)) == hbar*JyKet(1, 1) + assert qapply(Jy*JzKet(1, 1)) == sqrt(2)*hbar*I*JzKet(1, 0)/2 + # Symbolic + assert qapply(Jy*JxKet(j, m)) == \ + Sum(hbar*mi*WignerD(j, mi, m, pi*Rational(3, 2), 0, 0)*Sum(WignerD( + j, mi1, mi, 0, 0, pi/2)*JxKet(j, mi1), (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jy*JyKet(j, m)) == hbar*m*JyKet(j, m) + assert qapply(Jy*JzKet(j, m)) == \ + -hbar*I*sqrt(j**2 + j - m**2 - m)*JzKet( + j, m + 1)/2 + hbar*I*sqrt(j**2 + j - m**2 + m)*JzKet(j, m - 1)/2 + # Normal operators, coupled states + # Numerical + assert qapply(Jy*JxKetCoupled(1, 1, (1, 1))) == \ + hbar*JxKetCoupled(1, 1, (1, 1)) + assert qapply(Jy*JyKetCoupled(1, 1, (1, 1))) == \ + hbar*JyKetCoupled(1, 1, (1, 1)) + assert qapply(Jy*JzKetCoupled(1, 1, (1, 1))) == \ + sqrt(2)*hbar*I*JzKetCoupled(1, 0, (1, 1))/2 + # Symbolic + assert qapply(Jy*JxKetCoupled(j, m, (j1, j2))) == \ + Sum(hbar*mi*WignerD(j, mi, m, pi*Rational(3, 2), 0, 0)*Sum(WignerD(j, mi1, mi, 0, 0, pi/2)*JxKetCoupled(j, mi1, (j1, j2)), (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jy*JyKetCoupled(j, m, (j1, j2))) == \ + hbar*m*JyKetCoupled(j, m, (j1, j2)) + assert qapply(Jy*JzKetCoupled(j, m, (j1, j2))) == \ + -hbar*I*sqrt(j**2 + j - m**2 - m)*JzKetCoupled(j, m + 1, (j1, j2))/2 + \ + hbar*I*sqrt(j**2 + j - m**2 + m)*JzKetCoupled(j, m - 1, (j1, j2))/2 + # Normal operators, uncoupled states + # Numerical + assert qapply(Jy*TensorProduct(JxKet(1, 1), JxKet(1, 1))) == \ + hbar*TensorProduct(JxKet(1, 1), JxKet(1, 1)) + \ + hbar*TensorProduct(JxKet(1, 1), JxKet(1, 1)) + assert qapply(Jy*TensorProduct(JyKet(1, 1), JyKet(1, 1))) == \ + 2*hbar*TensorProduct(JyKet(1, 1), JyKet(1, 1)) + assert qapply(Jy*TensorProduct(JzKet(1, 1), JzKet(1, 1))) == \ + sqrt(2)*hbar*I*TensorProduct(JzKet(1, 1), JzKet(1, 0))/2 + \ + sqrt(2)*hbar*I*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2 + assert qapply(Jy*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == 0 + # Symbolic + assert qapply(Jy*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + TensorProduct(JxKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, pi*Rational(3, 2), 0, 0)*Sum(WignerD(j2, mi1, mi, 0, 0, pi/2)*JxKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2))) + \ + TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, pi*Rational(3, 2), 0, 0)*Sum(WignerD(j1, mi1, mi, 0, 0, pi/2)*JxKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JxKet(j2, m2)) + assert qapply(Jy*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + hbar*m1*TensorProduct(JyKet(j1, m1), JyKet( + j2, m2)) + hbar*m2*TensorProduct(JyKet(j1, m1), JyKet(j2, m2)) + assert qapply(Jy*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + -hbar*I*sqrt(j1**2 + j1 - m1**2 - m1)*TensorProduct(JzKet(j1, m1 + 1), JzKet(j2, m2))/2 + \ + hbar*I*sqrt(j1**2 + j1 - m1**2 + m1)*TensorProduct(JzKet(j1, m1 - 1), JzKet(j2, m2))/2 + \ + -hbar*I*sqrt(j2**2 + j2 - m2**2 - m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 + 1))/2 + \ + hbar*I*sqrt( + j2**2 + j2 - m2**2 + m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 - 1))/2 + # Uncoupled operators, uncoupled states + # Numerical + assert qapply(TensorProduct(Jy, 1)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \ + hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1)) + assert qapply(TensorProduct(1, Jy)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \ + -hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1)) + assert qapply(TensorProduct(Jy, 1)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \ + hbar*TensorProduct(JyKet(1, 1), JyKet(1, -1)) + assert qapply(TensorProduct(1, Jy)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \ + -hbar*TensorProduct(JyKet(1, 1), JyKet(1, -1)) + assert qapply(TensorProduct(Jy, 1)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \ + hbar*sqrt(2)*I*TensorProduct(JzKet(1, 0), JzKet(1, -1))/2 + assert qapply(TensorProduct(1, Jy)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \ + -hbar*sqrt(2)*I*TensorProduct(JzKet(1, 1), JzKet(1, 0))/2 + # Symbolic + assert qapply(TensorProduct(Jy, 1)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, pi*Rational(3, 2), 0, 0) * Sum(WignerD(j1, mi1, mi, 0, 0, pi/2)*JxKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JxKet(j2, m2)) + assert qapply(TensorProduct(1, Jy)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + TensorProduct(JxKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, pi*Rational(3, 2), 0, 0) * Sum(WignerD(j2, mi1, mi, 0, 0, pi/2)*JxKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2))) + assert qapply(TensorProduct(Jy, 1)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + hbar*m1*TensorProduct(JyKet(j1, m1), JyKet(j2, m2)) + assert qapply(TensorProduct(1, Jy)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + hbar*m2*TensorProduct(JyKet(j1, m1), JyKet(j2, m2)) + assert qapply(TensorProduct(Jy, 1)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + -hbar*I*sqrt(j1**2 + j1 - m1**2 - m1)*TensorProduct(JzKet(j1, m1 + 1), JzKet(j2, m2))/2 + \ + hbar*I*sqrt( + j1**2 + j1 - m1**2 + m1)*TensorProduct(JzKet(j1, m1 - 1), JzKet(j2, m2))/2 + assert qapply(TensorProduct(1, Jy)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + -hbar*I*sqrt(j2**2 + j2 - m2**2 - m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 + 1))/2 + \ + hbar*I*sqrt( + j2**2 + j2 - m2**2 + m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 - 1))/2 + + +def test_jz(): + assert Commutator(Jz, Jminus).doit() == -hbar*Jminus + # Normal operators, normal states + # Numerical + assert qapply(Jz*JxKet(1, 1)) == -sqrt(2)*hbar*JxKet(1, 0)/2 + assert qapply(Jz*JyKet(1, 1)) == -sqrt(2)*hbar*I*JyKet(1, 0)/2 + assert qapply(Jz*JzKet(2, 1)) == hbar*JzKet(2, 1) + # Symbolic + assert qapply(Jz*JxKet(j, m)) == \ + Sum(hbar*mi*WignerD(j, mi, m, 0, pi/2, 0)*Sum(WignerD(j, + mi1, mi, 0, pi*Rational(3, 2), 0)*JxKet(j, mi1), (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jz*JyKet(j, m)) == \ + Sum(hbar*mi*WignerD(j, mi, m, pi*Rational(3, 2), -pi/2, pi/2)*Sum(WignerD(j, mi1, + mi, pi*Rational(3, 2), pi/2, pi/2)*JyKet(j, mi1), (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jz*JzKet(j, m)) == hbar*m*JzKet(j, m) + # Normal operators, coupled states + # Numerical + assert qapply(Jz*JxKetCoupled(1, 1, (1, 1))) == \ + -sqrt(2)*hbar*JxKetCoupled(1, 0, (1, 1))/2 + assert qapply(Jz*JyKetCoupled(1, 1, (1, 1))) == \ + -sqrt(2)*hbar*I*JyKetCoupled(1, 0, (1, 1))/2 + assert qapply(Jz*JzKetCoupled(1, 1, (1, 1))) == \ + hbar*JzKetCoupled(1, 1, (1, 1)) + # Symbolic + assert qapply(Jz*JxKetCoupled(j, m, (j1, j2))) == \ + Sum(hbar*mi*WignerD(j, mi, m, 0, pi/2, 0)*Sum(WignerD(j, mi1, mi, 0, pi*Rational(3, 2), 0)*JxKetCoupled(j, mi1, (j1, j2)), (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jz*JyKetCoupled(j, m, (j1, j2))) == \ + Sum(hbar*mi*WignerD(j, mi, m, pi*Rational(3, 2), -pi/2, pi/2)*Sum(WignerD(j, mi1, mi, pi*Rational(3, 2), pi/2, pi/2)*JyKetCoupled(j, mi1, (j1, j2)), (mi1, -j, j)), (mi, -j, j)) + assert qapply(Jz*JzKetCoupled(j, m, (j1, j2))) == \ + hbar*m*JzKetCoupled(j, m, (j1, j2)) + # Normal operators, uncoupled states + # Numerical + assert qapply(Jz*TensorProduct(JxKet(1, 1), JxKet(1, 1))) == \ + -sqrt(2)*hbar*TensorProduct(JxKet(1, 1), JxKet(1, 0))/2 - \ + sqrt(2)*hbar*TensorProduct(JxKet(1, 0), JxKet(1, 1))/2 + assert qapply(Jz*TensorProduct(JyKet(1, 1), JyKet(1, 1))) == \ + -sqrt(2)*hbar*I*TensorProduct(JyKet(1, 1), JyKet(1, 0))/2 - \ + sqrt(2)*hbar*I*TensorProduct(JyKet(1, 0), JyKet(1, 1))/2 + assert qapply(Jz*TensorProduct(JzKet(1, 1), JzKet(1, 1))) == \ + 2*hbar*TensorProduct(JzKet(1, 1), JzKet(1, 1)) + assert qapply(Jz*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == 0 + # Symbolic + assert qapply(Jz*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + TensorProduct(JxKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, 0, pi/2, 0)*Sum(WignerD(j2, mi1, mi, 0, pi*Rational(3, 2), 0)*JxKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2))) + \ + TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, 0, pi/2, 0)*Sum(WignerD(j1, mi1, mi, 0, pi*Rational(3, 2), 0)*JxKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JxKet(j2, m2)) + assert qapply(Jz*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + TensorProduct(JyKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, pi*Rational(3, 2), -pi/2, pi/2)*Sum(WignerD(j2, mi1, mi, pi*Rational(3, 2), pi/2, pi/2)*JyKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2))) + \ + TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, pi*Rational(3, 2), -pi/2, pi/2)*Sum(WignerD(j1, mi1, mi, pi*Rational(3, 2), pi/2, pi/2)*JyKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JyKet(j2, m2)) + assert qapply(Jz*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + hbar*m1*TensorProduct(JzKet(j1, m1), JzKet( + j2, m2)) + hbar*m2*TensorProduct(JzKet(j1, m1), JzKet(j2, m2)) + # Uncoupled Operators + # Numerical + assert qapply(TensorProduct(Jz, 1)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \ + -sqrt(2)*hbar*TensorProduct(JxKet(1, 0), JxKet(1, -1))/2 + assert qapply(TensorProduct(1, Jz)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \ + -sqrt(2)*hbar*TensorProduct(JxKet(1, 1), JxKet(1, 0))/2 + assert qapply(TensorProduct(Jz, 1)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \ + -sqrt(2)*I*hbar*TensorProduct(JyKet(1, 0), JyKet(1, -1))/2 + assert qapply(TensorProduct(1, Jz)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \ + sqrt(2)*I*hbar*TensorProduct(JyKet(1, 1), JyKet(1, 0))/2 + assert qapply(TensorProduct(Jz, 1)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \ + hbar*TensorProduct(JzKet(1, 1), JzKet(1, -1)) + assert qapply(TensorProduct(1, Jz)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \ + -hbar*TensorProduct(JzKet(1, 1), JzKet(1, -1)) + # Symbolic + assert qapply(TensorProduct(Jz, 1)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, 0, pi/2, 0)*Sum(WignerD(j1, mi1, mi, 0, pi*Rational(3, 2), 0)*JxKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JxKet(j2, m2)) + assert qapply(TensorProduct(1, Jz)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \ + TensorProduct(JxKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, 0, pi/2, 0)*Sum(WignerD(j2, mi1, mi, 0, pi*Rational(3, 2), 0)*JxKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2))) + assert qapply(TensorProduct(Jz, 1)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, pi*Rational(3, 2), -pi/2, pi/2)*Sum(WignerD(j1, mi1, mi, pi*Rational(3, 2), pi/2, pi/2)*JyKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JyKet(j2, m2)) + assert qapply(TensorProduct(1, Jz)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \ + TensorProduct(JyKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, pi*Rational(3, 2), -pi/2, pi/2)*Sum(WignerD(j2, mi1, mi, pi*Rational(3, 2), pi/2, pi/2)*JyKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2))) + assert qapply(TensorProduct(Jz, 1)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + hbar*m1*TensorProduct(JzKet(j1, m1), JzKet(j2, m2)) + assert qapply(TensorProduct(1, Jz)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \ + hbar*m2*TensorProduct(JzKet(j1, m1), JzKet(j2, m2)) + + +def test_rotation(): + a, b, g = symbols('a b g') + j, m = symbols('j m') + #Uncoupled + answ = [JxKet(1,-1)/2 - sqrt(2)*JxKet(1,0)/2 + JxKet(1,1)/2 , + JyKet(1,-1)/2 - sqrt(2)*JyKet(1,0)/2 + JyKet(1,1)/2 , + JzKet(1,-1)/2 - sqrt(2)*JzKet(1,0)/2 + JzKet(1,1)/2] + fun = [state(1, 1) for state in (JxKet, JyKet, JzKet)] + for state in fun: + got = qapply(Rotation(0, pi/2, 0)*state) + assert got in answ + answ.remove(got) + assert not answ + arg = Rotation(a, b, g)*fun[0] + assert qapply(arg) == (-exp(-I*a)*exp(I*g)*cos(b)*JxKet(1,-1)/2 + + exp(-I*a)*exp(I*g)*JxKet(1,-1)/2 - sqrt(2)*exp(-I*a)*sin(b)*JxKet(1,0)/2 + + exp(-I*a)*exp(-I*g)*cos(b)*JxKet(1,1)/2 + exp(-I*a)*exp(-I*g)*JxKet(1,1)/2) + #dummy effective + assert str(qapply(Rotation(a, b, g)*JzKet(j, m), dummy=False)) == str( + qapply(Rotation(a, b, g)*JzKet(j, m), dummy=True)).replace('_','') + #Coupled + ans = [JxKetCoupled(1,-1,(1,1))/2 - sqrt(2)*JxKetCoupled(1,0,(1,1))/2 + + JxKetCoupled(1,1,(1,1))/2 , + JyKetCoupled(1,-1,(1,1))/2 - sqrt(2)*JyKetCoupled(1,0,(1,1))/2 + + JyKetCoupled(1,1,(1,1))/2 , + JzKetCoupled(1,-1,(1,1))/2 - sqrt(2)*JzKetCoupled(1,0,(1,1))/2 + + JzKetCoupled(1,1,(1,1))/2] + fun = [state(1, 1, (1,1)) for state in (JxKetCoupled, JyKetCoupled, JzKetCoupled)] + for state in fun: + got = qapply(Rotation(0, pi/2, 0)*state) + assert got in ans + ans.remove(got) + assert not ans + arg = Rotation(a, b, g)*fun[0] + assert qapply(arg) == ( + -exp(-I*a)*exp(I*g)*cos(b)*JxKetCoupled(1,-1,(1,1))/2 + + exp(-I*a)*exp(I*g)*JxKetCoupled(1,-1,(1,1))/2 - + sqrt(2)*exp(-I*a)*sin(b)*JxKetCoupled(1,0,(1,1))/2 + + exp(-I*a)*exp(-I*g)*cos(b)*JxKetCoupled(1,1,(1,1))/2 + + exp(-I*a)*exp(-I*g)*JxKetCoupled(1,1,(1,1))/2) + #dummy effective + assert str(qapply(Rotation(a,b,g)*JzKetCoupled(j,m,(j1,j2)), dummy=False)) == str( + qapply(Rotation(a,b,g)*JzKetCoupled(j,m,(j1,j2)), dummy=True)).replace('_','') + + +def test_jzket(): + j, m = symbols('j m') + # j not integer or half integer + raises(ValueError, lambda: JzKet(Rational(2, 3), Rational(-1, 3))) + raises(ValueError, lambda: JzKet(Rational(2, 3), m)) + # j < 0 + raises(ValueError, lambda: JzKet(-1, 1)) + raises(ValueError, lambda: JzKet(-1, m)) + # m not integer or half integer + raises(ValueError, lambda: JzKet(j, Rational(-1, 3))) + # abs(m) > j + raises(ValueError, lambda: JzKet(1, 2)) + raises(ValueError, lambda: JzKet(1, -2)) + # j-m not integer + raises(ValueError, lambda: JzKet(1, S.Half)) + + +def test_jzketcoupled(): + j, m = symbols('j m') + # j not integer or half integer + raises(ValueError, lambda: JzKetCoupled(Rational(2, 3), Rational(-1, 3), (1,))) + raises(ValueError, lambda: JzKetCoupled(Rational(2, 3), m, (1,))) + # j < 0 + raises(ValueError, lambda: JzKetCoupled(-1, 1, (1,))) + raises(ValueError, lambda: JzKetCoupled(-1, m, (1,))) + # m not integer or half integer + raises(ValueError, lambda: JzKetCoupled(j, Rational(-1, 3), (1,))) + # abs(m) > j + raises(ValueError, lambda: JzKetCoupled(1, 2, (1,))) + raises(ValueError, lambda: JzKetCoupled(1, -2, (1,))) + # j-m not integer + raises(ValueError, lambda: JzKetCoupled(1, S.Half, (1,))) + # checks types on coupling scheme + raises(TypeError, lambda: JzKetCoupled(1, 1, 1)) + raises(TypeError, lambda: JzKetCoupled(1, 1, (1,), 1)) + raises(TypeError, lambda: JzKetCoupled(1, 1, (1, 1), (1,))) + raises(TypeError, lambda: JzKetCoupled(1, 1, (1, 1, 1), (1, 2, 1), + (1, 3, 1))) + # checks length of coupling terms + raises(ValueError, lambda: JzKetCoupled(1, 1, (1,), ((1, 2, 1),))) + raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((1, 2),))) + # all jn are integer or half-integer + raises(ValueError, lambda: JzKetCoupled(1, 1, (Rational(1, 3), Rational(2, 3)))) + # indices in coupling scheme must be integers + raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((S.Half, 1, 2),) )) + raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((1, S.Half, 2),) )) + # indices out of range + raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((0, 2, 1),) )) + raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((3, 2, 1),) )) + raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((1, 0, 1),) )) + raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((1, 3, 1),) )) + # all j values in coupling scheme must by integer or half-integer + raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, S( + 4)/3), (1, 3, 1)) )) + # each coupling must satisfy |j1-j2| <= j3 <= j1+j2 + raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 5))) + raises(ValueError, lambda: JzKetCoupled(5, 1, (1, 1))) + # final j of coupling must be j of the state + raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((1, 2, 2),) ))