First complete description of low-lying spectroscopy in 254No

Abstract

In this work, we report the first complete shell-model description of low-lying structures of 254No. Employing the Kuo-Herling effective interaction, the calculations are performed within the Discrete Non-Orthogonal Shell Model recently implemented with the angular-momentum Variation After Projection applied on non-axial wavefunctions. Our calculations show a striking agreement with the experimentally known spectroscopy: the Yrast band, the 8- (K=8), 3+ (K=3) and 10+ (K=10) isomers together with associated K bands. We reproduce the recently measured Gallagher-Moszkowski splitting between the 3+ (K=3) and 4+ (K=4) band heads. We predict the appearance of a second 0+ state, in excellent agreement with recent new observation. In addition, we systematically examine the ground state spectra, dipole and spectroscopic quadrupole moments of even-even, odd-even, odd-odd nuclei from A=251 to A=256, which are favourably reproduced. The present description of 254No shows the ability of the Shell Model framework to describe the low-lying properties for such an exotic nucleus at the frontier of modern experimental nuclear physics research.