Q2) Consider two particles one S₁ has spin 1/2, and the other S₂ has spin 1. They interact with each other and couple to an external field B = B2 with the Hamiltonian: H = −ys₁ S₂+B(S+3S) (a) What are the energies and their degeneracy if B=0? (b) What are the (Lande) g factors for the manifolds you found in (a)? (c) What are the energies if y = 0. (d) Numerically plot the energies of all six states as a function of magnetic field. Use y = 1,0 < B < 5.
Q2) Consider two particles one S₁ has spin 1/2, and the other S₂ has spin 1. They interact with each other and couple to an external field B = B2 with the Hamiltonian: H = −ys₁ S₂+B(S+3S) (a) What are the energies and their degeneracy if B=0? (b) What are the (Lande) g factors for the manifolds you found in (a)? (c) What are the energies if y = 0. (d) Numerically plot the energies of all six states as a function of magnetic field. Use y = 1,0 < B < 5.
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Transcribed Image Text:Q2) Consider two particles one S₁ has spin 1/2, and the other S₂ has spin 1. They interact with each
other and couple to an external field B = B2 with the Hamiltonian:
H = −ys₁ S₂+B(S+3S)
(a) What are the energies and their degeneracy if B=0?
(b) What are the (Lande) g factors for the manifolds you found in (a)?
(c) What are the energies if y = 0.
(d) Numerically plot the energies of all six states as a function of magnetic field. Use y = 1,0 < B <
5.
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