Perturbation Theory: Finding Eigenfunctions and Energies

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PeteSampras
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In a text a exercice says that for the Hamiltonian

##H_0 = \frac{p^2}{2m}+V(x)## the eigenfunction and eigen energy are ##\phi_n, E_n##. If we add the perturbation ## \frac{\lambda}{m}p## ¿what is the new eigenfunction?

The solution is

## \frac{p^2}{2m} + \frac{\lambda}{m}p+V= \frac{(p+\lambda)^2}{2m}- \frac{\lambda^2}{2m}+V##

but, the solution says ##\psi= exp(-i x \lambda/ \hbar) \phi_n##

I understand that ##H_0 \phi_n = E \phi_n## but,

¿why the solution ##\psi## has it form?,
 
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The form of the new psai is a phase factor mutiplied by the previous eigenfunction. You can to some extent anticipate this answer form because the moment p has undergone a certain 'shift' by lamda.