β- decay of neutron-rich 45Cl at magic number N=28

Abstract

Results from the study of β--decay of 45Cl, produced in the fragmentation of a 140-MeV/u 48Ca beam, are presented. The half-life for 45Cl β-decay is measured to be 513(36) ms. The β- and β- 1n decay of 45Cl populated excited states in 45,44Ar, respectively. On the basis of γ-ray singles and γ-γ coincidence data, decay schemes for the two daughter nuclei have been established. They are compared with shell model calculations using the FSU interaction. The low-lying negative parity states for 45Ar are well described by a single particle (neutron) occupying orbitals near the Fermi surface, whereas neutron excitations across the N = 20 shell gap are needed to explain the positive-parity states which are expected to be populated in allowed Gamow-Teller β-decay of 45Cl. The highest β-feeding to the 5/2+ state in 45Ar from the ground state of 45Cl points towards a 3/2+ spin-parity assignment of the ground state of the parent over the other possibility of 1/2+. The high Qβ- value of 45Cl decay allows for the population of 1p1h states above the neutron separation energy in 45Ar leading to positive parity states of 44Ar being populated by removal of one neutron from the sd shell. The spin-parities of the excited levels in 44Ar are tentatively assigned for the first time by comparison with the shell model calculations. The 2978~keV level of 44Ar is identified as the excited 0+ level which could correspond to a different configuration from the ground state.