Phonon-particle coupling effects in single-particle energies of semi-magic nuclei

Abstract

A method is presented to evaluate the particle-phonon coupling (PC) corrections to the single-particle energies (SPEs) in semi-magic nuclei. In such nuclei always there is a collective low-lying 2+ phonon, and a strong mixture of single-particle and particle-phonon states often occurs. As in magic nuclei, the so-called g2L approximation, where gL is the vertex of the L-phonon creation, can be used for finding the PC correction δ PC() to the initial mass operator 0. In addition to the usual pole diagram, the phonon "tadpole" diagram is also taken into account. In semi-magic nuclei, the perturbation theory in δ PC() with respect to 0 is often invalid for finding the PC corrected SPEs. Instead, the Dyson equation with the mass operator ()=0+δ PC() is solved directly, without any use of the perturbation theory. Results for a chain of semi-magic Pb isotopes are presented.