The Hamiltonian of a spin in a constant magnetic field B aligned with the y axis is given by H = aSy, where a is a constant. a) Use the energies and eigenstates for this case to determine the time evolution [psi](t) of the state with initial condition [psi](0) = (1/root[2])*mat([1],[1]).
The Hamiltonian of a spin in a constant magnetic field B aligned with the y axis is given by H = aSy, where a is a constant. a) Use the energies and eigenstates for this case to determine the time evolution [psi](t) of the state with initial condition [psi](0) = (1/root[2])*mat([1],[1]).
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The Hamiltonian of a spin in a constant magnetic field B aligned with the y axis is given by H = aSy, where a is a constant.
a) Use the energies and eigenstates for this case to determine the time evolution [psi](t) of the state with initial condition [psi](0) = (1/root[2])*mat([1],[1]).
b) For your solution from part (a), calculate the expectation values <Sx>, <Sy>, <Sz> as a function of time.
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Transcribed Image Text:The Hamiltonian of a spin in a constant magnetic field B aligned with the y axis is give
by H = aSy, where a is a constant.
(a) Use the energies and eigenstates for this case to determine the time evolution V(t) of
the state with initial condition ¥(0) = 5 G).
(b) For your solution from part (a), calculate the expectation values (Sz), (Sy) and (S:) as
a function of time.
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