Spectroscopic factors of magic and semimagic nuclei within the self-consistent theory of finite Fermi systems

N. V. Gnezdilov, E. E. Saperstein, S. V. Tolokonnikov

Published 2014-07-12, updated 2014-09-20Version 2

A scheme is presented to find single-particle spectroscopic factors (SF) of magic and semimagic nuclei within the self-consistent theory of finite Fermi systems (TFFS). In addition to the energy dependence of the mass operator $\Sigma$ induced by the surface-phonon coupling effects which are commonly considered in this problem, the in-volume energy dependence of the operator $\Sigma$ inherent in the self-consistent TFFS is also taken into account. This dependence arises due to the effect of high-lying particle-hole excitations and persists in nuclear matter. The self-consistent basis of the energy density functional method by Fayans {\it et al.} is used. Both the surface and in-volume contributions to the SFs turned out to be of comparable magnitude. The results for magic $^{40,48}$Ca and $^{208}$Pb nuclei and semimagic lead isotopes are presented.