High-spin structures of 13654Xe, 13755Cs, 13856Ba, 13957La, and 14058Ce : A shell model description

Abstract

In the present work recently available experimental data [A. Astier et al, Phys. Rev. C 85, 064316 (2012)] for high-spin states of five N=82 isotones, 13654Xe, 13755Cs, 13856Ba, 13957La, and 14058Ce have been interpreted with state-of-the-art shell model calculations. The calculations have been performed in the 50-82 valence shell composed of 1g7/2, 2d5/2, 1h11/2, 3s1/2, and 2d3/2 orbitals. We have compared our results with the available experimental data for excitation energies including high-spin states, occupancy numbers and transition probabilities. As expected the structure of these isotones are due to proton excitations across Z=50 shell. The structure of the positive-parity states are mainly from (π g7/2π d5/2)n and (π g7/2π d5/2)n-2(π h11/2)2 configurations, while the negative-parity states have (π g7/2π d5/2)n(π h11/2)1 configuration. Additionally, for the 13654Xe, 13755Cs and 13856Ba isotones the excitation of the neutrons across N=82 gap is important.