Quenching of N = 28 shell gap and a low-lying quadrupole mode in the vicinity of neutron-rich N = 28 isotones

Abstract

We investigate the low-lying 2+ states of N=28 isotones (48Ca, 46Ar, 44S and 42Si) with using the canonical-basis time-dependent Hartree-Fock-Bogoliubov theory in which the pairing is taken into account self-consistently. The quadrupole mode with very small excitation energies emerges in 46Ar, 44S and 42Si due to the strong quadrupole correlations triggered by the quenching of the N=28 shell gap. The importance of the quadrupole correlations between the protons and neutrons, and the role of the pairing correlation to reinforce the lowest 2+ mode are discussed. It is also shown that the B(E2) values of 48Ca and 46Ar are plausibly explained by our calculations.