Binding, bonding and charge symmetry breaking in -hypernuclei

Abstract

Recent experiments have presented more accurate data on the -binding energies of a few - hypernuclei. This is important as the - bond energies ( B) of double- hypernuclei provide a measure of the in-medium strength of the interaction. A mass formula, optimized with the newly available binding energy data, is used to estimate the binding energy and bond energy over a wide range of hypernuclei. The B values calculated with this mass formula are in good agreement with the experimental data, predictions of the quark mean-field (QMF) model and the relativistic mean-field (RMF) model as well. The -bond energy is found to diminish with neutron numbers, approaching zero near the neutron-drip line. In this formalism, the calculated binding energy difference in mirror nuclei arises from the Coulomb contributions and can be utilized to extract the Coulomb-corrected charge symmetry breaking effect.