Beyond the 2-Body Interaction Paradigm: The Case for Extended A-Body Pairing Interaction in Nuclei

Abstract

We discuss modeling of nuclear structure beyond the 2-body interaction paradigm. Our first example is related to the need of three nucleon contact interaction terms suggested by chiral perturbation theory. The relationship of the two low-energy effective coupling parameters for the relevant three nucleon contact interaction terms cD and cE that reproduce the binding energy of 3H and 3He has been emphasized and the physically relevant parameter region has been illustrated using the binding energy of 4He. Further justification of A-body interaction terms is outlined based on the Okubo-Lee-Suzuki effective interaction method used in solving the nuclear many-body problem within a finite model space. The third example we use is an exactly solvable A-body extended pairing interaction applied to heavy nuclei with a long isotopic chains, in particular using 132Sn and 208Pb as closed core system illustrates a remarkable relationship between the extended pairing strength G(A) and the size of the valence space (A) for the members of these two isotope chain: G(A)=α(A)-β with α=259.436 for Sn and α=366.77 for Pb while the parameter β is practically 1. These three cases present evidence for the need of better understanding of the three-nucleon (NNN), four-nucleon (NNNN), and A-body interactions in nuclei either derived from ChPT or from a phenomenological considerations.