Deformation and weak decay of Lambda hypernuclei
arXiv:0903.3093 · doi:10.1142/S0218301310017071
Abstract
We use the self-consistent mean-field theory to discuss the ground state and decay properties of $Î$ hypernuclei. We first discuss the deformation of $Î$ hypernuclei using the relativistic mean-field (RMF) approach. We show that, although most of hypernuclei have a similar deformation parameter to the core nucleus, the shape of $^{28}$Si is drastically altered, from oblately deformed to spherical, if a $Î$ particle is added to this nucleus. We then discuss the pionic weak decay of neutron-rich $Î$ hypernuclei using the Skyrme Hartree-Fock + BCS method. We show that, for a given isotope chain, the decay rate increases as a function of mass number, due to the strong neutron-proton interaction.
A talk given at Sendai International Symposium on Strangeness Nuclear and Hadronic Systems (SENDAI08), Dec. 15-18, 2008, Sendai, Japan