Quantum Mechanics - Spin Angular Momentum

Two ions 1 and 2, at fixed separation, with spin angular momentum operators S₁ and S₂, have the interaction Hamiltonian H = −J S₁·S₂, where J > 0. The values of S₁² and S₂² are fixed at S₁(S₁ + 1) and S₂(S₂ + 1), respectively. Which of the following is the energy of the ground state of the system?

A. 0
B. –JS₁S₂
C. –J[S₁(S₁ + 1) – S₂(S₂ + 1)]
D. –(J/2)[(S₁ + S₂)(S₁ + S₂ + 1) – S₁(S₁+1) – S₂(S₂+1)]
E. –(J/2)[(S₁(S₁ + 1) + S₂(S₂ + 1))/(S₁ + S₂)(S₁ + S₂ + 1)]

(GR9677 #77)

Solution:

S₁² ψ = S₁(S₁ + 1) ψ
S₂² ψ = S₂(S₂ + 1) ψ
S_i² ψ = S_i(S_i + 1) ψ

H = −J S₁·S₂

Using general arithmetic equation: ab = ½ [(a + b)² − a² − b²]

H = −(J/2)[(S₁ + S₂)² − S₁² − S₂²]

Since S_i² ψ = S_i(S_i + 1) ψ
For (S₁ + S₂)² → replace S_i with S₁ + S₂
→ (S₁ + S₂)² ψ = (S₁ + S₂)(S₁ + S₂ + 1) ψ

H = −(J/2)[(S₁ + S₂)(S₁ + S₂ + 1) − S₁(S₁ + 1) − S₂(S₂ + 1)]

Answer: D