Microscopic nuclear structure study of $^{229}$Th by Projected Shell Model
Abstract
Th, a crucial candidate for nuclear clocks and many other applications, is a typical heavy nucleus with an extremely low-energy isomeric state Th. A detailed study of the nuclear structure of Th is performed here by the microscopic model of state-of-the-art projected shell model. Our calculation describes well low-energy levels of Th, and provides a reduced transition probability of W.u. for the isomeric transition which agrees well with the radiative lifetime of Th measured recently. Our result supports a small multipole mixing for the cross-band transition of the second-excited state of Th, suggesting that further investigations on the inconsistencies in the decay of the second-excited state should be necessary. The physics behind these properties is revealed by the analysis of the nuclear wave functions. Our findings provide a deep insight into Th from the microscopic nuclear structure point of view, and offer the chance for further studies for nuclear clocks and relevant topics by microscopic nuclear structure theory.
Cite
@article{arxiv.2508.19686,
title = {Microscopic nuclear structure study of $^{229}$Th by Projected Shell Model},
author = {Zi-Rui Chen and Long-Jun Wang and Yuanbin Wu},
journal= {arXiv preprint arXiv:2508.19686},
year = {2025}
}