Phonon-particle coupling effects in odd-even double mass differences of semi-magic nuclei

Abstract

A method is developed to consider the particle-phonon coupling (PC) effects in the calculation of the odd-even double mass differences (DMD) in semi-magic nuclei starting from the free NN-potential. The PC correction δ PC to the mass operator is found in gL2-approximation, gL being the vertex of creating the L-phonon. The tadpole term of the operator δ PC is taken into account. The method is based on a direct, without any use of the perturbation theory, solution of the Dyson equation with the mass operator (ε)=0+δ PC(ε) for finding the single-particle energies and Z-factors. In its turn, they are used as an input for finding different PC corrections to the DMD values. Results for a chain of even semi-magic nuclei 200-206Pb show that the inclusion of the PC corrections makes agreement with the experimental data significantly better.