Chiral four-body interactions in nuclear matter

Abstract

An exploratory study of chiral four-nucleon interactions in nuclear and neutron matter is performed. The leading-order terms arising from pion-exchange in combination with the chiral 4π-vertex and the chiral NN3π-vertex are found to be very small. Their attractive contribution to the energy per particle stays below 0.6\,MeV in magnitude for densities up to =0.4\,fm-3. We consider also the four-nucleon interaction induced by pion-exchange and twofold -isobar excitation of nucleons. For most of the closed four-loop diagrams the occurring integrals over four Fermi spheres can either be solved analytically or reduced to easily manageable one- or two-parameter integrals. After summing the individually large contributions from 3-ring, 2-ring and 1-ring diagrams of alternating signs, one obtains at nuclear matter saturation density 0=0.16\,fm-3 a moderate contribution of 2.35\,MeV to the energy per particle. The curve E() rises rapidly with density, approximately with the third power of . In pure neutron matter the analogous chiral four-body interactions lead, at the same density n, to a repulsive contribution that is about half as strong. The present calculation indicates that long-range multi-nucleon forces, in particular those provided by the strongly coupled π N -system with its small mass-gap of 293\,MeV, can still play an appreciable role for the equation of state of nuclear and neutron matter.