Large scale shell model calculations for odd-odd 58-62Mn isotopes

Abstract

Large scale shell model calculations have been carried out for odd-odd 58-62Mn isotopes in two different model spaces. First set of calculations have been carried out in full fp shell valence space with two recently derived fp shell interactions namely GXPF1A and KB3G treating 40Ca as core. The second set of calculations have been performed in fpg9/2 valence space with the fpg interaction treating 48Ca as core and imposing a truncation by allowing up to a total of six particle excitations from the 0f7/2 orbital to the upper fp orbitals for protons and from the upper fp orbitals to the 0g9/2 orbital for neutron. For low-lying states in 58Mn, the KB3G and GXPF1A both predicts good results and for 60Mn, KB3G is much better than GXPF1A. For negative parity and high-spin positive parity states in both isotopes fpg interaction is required. Experimental data on 62Mn is sparse and therefore it is not possible to make any definite conclusions. More experimental data on negative parity states is needed to ascertain the importance of 0g9/2 and higher orbitals in neutron rich Mn isotopes.