Shell-model descriptions of mass 16-19 nuclei with chiral two- and three-nucleon interactions

Abstract

Shell-model calculations for several mass 16-19 nuclei are performed using the N3LO two-nucleon potential V2N with and without the addition of an in-medium three-nucleon potential V3Nmed, which is a density-dependent effective two-nucleon potential recently derived from the leading-order chiral three-nucleon force V3N by Holt, Kaiser, and Weise. We first calculate the Vlow-k low-momentum interactions from V2N and V3Nmed. The shell-model effective interactions for both the sd one-shell and sdpf two-shell model spaces are then obtained from these low-momentum interactions using respectively the Lee-Suzuki and the recently developed Okamoto and Suzuki iteration methods. The effects of V3Nmed to the low-lying states of 18O, 18F, 19O and 19F are generally small and attractive, mainly lowering the ground-state energies of these nuclei and making them in better agreements with experiments than those calculated with V2N alone. The excitation spectra of these nuclei are not significantly affected by V3Nmed. The low-lying spectra of these nuclei calculated with the sd and sdpf model spaces are closely similar to each other. Our shell-model calculations for 16O indicate that the V3Nmed interaction is important and desirable for the binding energy of this nucleus.