Shell model study of isobaric analog states for Tz= 2 nuclei using isospin non-conserving interactions
Abstract
In order to comprehend the process underlying mirror energy differences in mirror pairs, we have performed shell-model calculations for Tz= 2 sd-shell nuclei in the mass range A= 20 to 36 and neutron number varying from N= 8 to 20. Isospin-symmetry breaking (ISB) is responsible for the mirror energy difference of excited states. We have investigated the blackisospin non-conserving interactions: USDC and USDCm to explore the low-lying energy spectra, mirror energy differences, isoscalar (M0), isovector (M1) matrix elements, E2 transition probability, magnetic (μ), and quadrupole moments (Q) of mirror-pair and compared them with their available experimental data. The impact of single-particle states on weakly bound and unbound nuclear states are investigated, especially those of the s-wave. We have also analyzed single proton/neutron separation energies and proton/neutron occupancy for (Tz=-2)/(Tz=+2) sd-shell nuclei.
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