pairing in multi-strange hypernuclei

Abstract

Multi-strange Ca, Sn and Pb hypernuclei with pairing interaction are investigated within the Hartree-Fock-Bogoliubov approach. The unknown pairing strength is calibrated to match with the maximal value for the prediction of the pairing gap in uniform matter for densities and isospin asymmetries equivalent to those existing in multi- hypernuclei. In this way, we provide an upper bound for the prediction of the pairing gap and its effects in hypernuclei. The condensation energy is predicted to be about 3~MeV as a maximum value, yielding small corrections on density distributions and shell structure. In addition, conditions on both Fermi energies and orbital angular momenta are expected to quench the nucleon- pairing for most of hypernuclei.