Microscopic particle-rotor model for low-lying spectrum of Lambda hypernuclei
arXiv:1406.4604 · doi:10.1103/PhysRevC.90.064302
Abstract
We propose a novel method for low-lying states of hypernuclei based on the particle-rotor model, in which hypernuclear states are constructed by coupling the hyperon to low-lying states of the core nucleus. In contrast to the conventional particle-rotor model, we employ a microscopic approach for the core states, that is, the generator coordinate method (GCM) with the particle number and angular momentum projections. We apply this microscopic particle-rotor model to $^9_Î$Be employing a point-coupling version of the relativistic mean-field Lagrangian. A reasonable agreement with the experimental data for the low-spin spectrum is achieved using the $ÎN$ coupling strengths determined to reproduce the binding energy of the $Î$ particle.
6 pages, 2 figures. uses elsarticle.cls and numcompress.sty