$^4{\rm He}$+$n$+$n$ continuum within an ab initio framework
Abstract
The low-lying continuum spectrum of the nucleus is investigated for the first time within an ab initio framework that encompasses the ++ three-cluster dynamics characterizing its lowest decay channel. This is achieved through an extension of the no-core-shell model combined with the resonating-group method, in which energy-independent non-local interactions among three nuclear fragments can be calculated microscopically starting from realistic nucleon-nucleon interactions and consistent ab initio many-body wave functions of the clusters. The three-cluster Schr\"odinger equation is solved with three-body scattering boundary conditions by means of the hyperspherical-harmonic method on a Lagrange mesh. Using a soft similarity-renormalization-group evolved chiral nucleon-nucleon potential, we find the known resonance as well as a result consistent with a new low-lying second resonance recently observed at GANIL at MeV above the He ground state. We also find resonances in the , and channels, while no low-lying resonances are present in the and channels.
Cite
@article{arxiv.1404.1960,
title = {$^4{\rm He}$+$n$+$n$ continuum within an ab initio framework},
author = {Carolina Romero-Redondo and Sofia Quaglioni and Petr Navrátil and Guillaume Hupin},
journal= {arXiv preprint arXiv:1404.1960},
year = {2014}
}
Comments
5 pages 4 figures