A three-dimensional harmonic oscillator of mass m has the potential energy zmw*x² +mw*y² +mwžz² where w, = 2w a. Write its general eigenvalues and eigenfunctions b. Determine the eigenvalues and their degeneracies up to the 4th excited state c. The oscillator is initially equally likely found in the ground, first and second excited states and is also equally likely found among the states of the degenerate levels. Calculate the expectation values of the product xyz at time t

A three-dimensional harmonic oscillator of mass m has the potential energy zmwx² +mwy² +mwžz² where w, = 2w a. Write its general eigenvalues and eigenfunctions b. Determine the eigenvalues and their degeneracies up to the 4th excited state c. The oscillator is initially equally likely found in the ground, first and second excited states and is also equally likely found among the states of the degenerate levels. Calculate the expectation values of the product xyz at time t

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Question

Physics Department
PHYS4101 (Quantum Mechanics)
Assignment 2 (Fall 2020)
Name & ID#.
A three-dimensional harmonic oscillator of mass m has the potential energy
1
1
1
V(x.y.2) = ; mw*x² +mwży² +=mw;z?
where w1 = 2w
a. Write its general eigenvalues and eigenfunctions
b. Determine the eigenvalues and their degeneracies up to the 4th excited state
c. The oscillator is initially equally likely found in the ground, first and second excited states and
is also equally likely found among the states of the degenerate levels. Calculate the expectation
values of the product xyz at time t

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