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beans73
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Homework Statement
Hi there. just working on a problem from sakurai's modern quantum mechanics. it is:
A) Prove that the time evolution of the density operator ρ (in the Schrodinger picture) is given by
[itex]ρ(t)=U(t,t_{0})ρ(t_{0})U^\dagger(t,t_{0})[/itex]
B) Suppose that we have a pure ensemble at t=0. Prove that it cannot evolve into a mixed ensemble as long as the time evolution is governed by the Schrodinger equation.
Homework Equations
The Attempt at a Solution
Working out:
part a) ok, so what I've done is simply say the state |α[itex]^{i}>[/itex] at some time t can be described as:
[itex]|α^{i};t>=U(t)|α^{i};t_{0}>[/itex]
Knowing that:
[itex]ρ(t)=\sum w_{i}|α^{i}><α^{i}|[/itex]
then
[itex]ρ(t)=\sum w_{i}U(t)|α^{i};t_{0}><α^{i};t_{0}|U^\dagger(t)[/itex]
[itex]ρ(t)=U(t,t_{0})ρ(t_{0})U^\dagger(t,t_{0})[/itex]
part b)
for this i looked at the trace of ρ[itex]^{2}[/itex]
[itex]tr(ρ^{2}))=tr(U(t)ρ(t_{0})U^\dagger(t)Uρ(t_{0})U^\dagger)[/itex]
[itex]tr(ρ^{2}))=tr(ρ(t_{0})ρ(t_{0})U^\dagger(t)U(t)[/itex]
[itex]tr(ρ^{2}))=tr(ρ^{2}(t_{0}))[/itex]all the other questions i have been given in this class have taken a couple of pages worth of working out, and that has made me paranoid that I'm over-simplifying this problem and possibly missing something. any feedback would be much appreciated.
cheers guys!
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