English

Tensor force role in $\beta$ decays analyzed within the Gogny-interaction shell model

Nuclear Theory 2021-09-15 v1 Nuclear Experiment

Abstract

Background: The half-life of the famous 14^{14}C β\beta decay is anomalously long, with different mechanisms: the tensor force, cross-shell mixing, and three-body forces, proposed to explain the cancellations that lead to a small transition matrix element. Purpose: We revisit and analyze the role of the tensor force for the β\beta decay of 14^{14}C as well as of neighboring isotopes. Methods: We add a tensor force to the Gogny interaction, and derive an effective Hamiltonian for shell-model calculations. The calculations were carried out in a pp-sdsd model space to investigate cross-shell effects. Furthermore, we decompose the wave functions according to the total orbital angular momentum LL in order to analyze the effects of the tensor force and cross-shell mixing. Results: The inclusion of the tensor force significantly improves the shell-model calculations of the β\beta-decay properties of carbon isotopes. In particular, the anomalously slow β\beta decay of 14^{14}C can be explained by the isospin T=0T=0 part of the tensor force, which changes the components of 14^{14}N with the orbital angular momentum L=0,1L=0,1, and results in a dramatic suppression of the Gamow-Teller transition strength. At the same time, the description of other nearby β\beta decays are improved. Conclusions: Decomposition of wave function into LL components illuminates how the tensor force modifies nuclear wave functions, in particular suppression of β\beta-decay matrix elements. Cross-shell mixing also has a visible impact on the β\beta-decay strength. Inclusion of the tensor force does not seem to significantly change, however, binding energies of the nuclei within the phenomenological interaction.

Keywords

Cite

@article{arxiv.2109.02205,
  title  = {Tensor force role in $\beta$ decays analyzed within the Gogny-interaction shell model},
  author = {B. Dai and B. S. Hu and Y. Z. Ma and J. G. Li and S. M. Wang and C. W. Johnson and F. R. Xu},
  journal= {arXiv preprint arXiv:2109.02205},
  year   = {2021}
}

Comments

8 Pages,7 Figures

R2 v1 2026-06-24T05:42:05.832Z