English

$^{229m}$Th isomer from a nuclear model perspective

Nuclear Theory 2021-02-05 v1 Nuclear Experiment

Abstract

The physical conditions for the emergence of the extremely low-lying nuclear isomer 229m^{229m}Th at approximately 8 eV are investigated in the framework of our recently proposed nuclear structure model. Our theoretical approach explains the 229m^{229m}Th-isomer phenomenon as the result of a very fine interplay between collective quadrupole-octupole and single-particle dynamics in the nucleus. We find that the isomeric state can only appear in a rather limited model space of quadrupole-octupole deformations in the single-particle potential, with the octupole deformation being of a crucial importance for its formation. Within this deformation space the model-described quantities exhibit a rather smooth behaviour close to the line of isomer-ground state quasi-degeneracy determined by the crossing of the corresponding single-particle orbitals. Our comprehensive analysis confirms the previous model predictions for reduced transition probabilities and the isomer magnetic moment, while showing a possibility for limited variation in the ground-state magnetic moment theoretical value. These findings prove the reliability of the model and suggest that the same dynamical mechanism could manifest in other actinide nuclei giving a general prescription for the search and exploration of similar isomer phenomena.

Keywords

Cite

@article{arxiv.2102.02288,
  title  = {$^{229m}$Th isomer from a nuclear model perspective},
  author = {Nikolay Minkov and Adriana Pálffy},
  journal= {arXiv preprint arXiv:2102.02288},
  year   = {2021}
}

Comments

22 pages, 14 figures

R2 v1 2026-06-23T22:48:54.542Z