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Isospin corrections for superallowed Fermi beta decay in self-consistent relativistic random phase approximation approaches

Nuclear Theory 2009-08-03 v2
Authors: Haozhao Liang , Nguyen Van Giai , Jie Meng
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Abstract

Self-consistent random phase approximation (RPA) approaches in the relativistic framework are applied to calculate the isospin symmetry-breaking corrections δc\delta_c for the 0+0+0^+\to0^+ superallowed transitions. It is found that the corrections δc\delta_c are sensitive to the proper treatments of the Coulomb mean field, but not so much to specific effective interactions. With these corrections δc\delta_c, the nucleus-independent Ft\mathcal{F}t values are obtained in combination with the experimental ftft values in the most recent survey and the improved radiative corrections. It is found that the constancy of the Ft\mathcal{F}t values is satisfied for all effective interactions employed. Furthermore, the element VudV_{ud} and unitarity of the Cabibbo-Kobayashi-Maskawa matrix are discussed.

Keywords

relativistic atomic physics isospin symmetry breaking radiative corrections in particle physics

Cite

@article{arxiv.0904.3673,
  title  = {Isospin corrections for superallowed Fermi beta decay in self-consistent relativistic random phase approximation approaches},
  author = {Haozhao Liang and Nguyen Van Giai and Jie Meng},
  journal= {arXiv preprint arXiv:0904.3673},
  year   = {2009}
}

Comments

7 pages, 2 figures, 4 tables

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