English

$^{25}$Si $\beta^+$-decay spectroscopy

Nuclear Experiment 2021-02-03 v3

Abstract

β\beta-decay spectroscopy provides valuable information on exotic nuclei and a stringent test for nuclear theories beyond the stability line. To search for new β\beta-delayed protons and γ\gamma rays of 25^{25}Si to investigate the properties of 25^{25}Al excited states. 25^{25}Si β\beta decays were measured by using the Gaseous Detector with Germanium Tagging system at the National Superconducting Cyclotron Laboratory. The protons and γ\gamma rays emitted in the decay were detected simultaneously. A Monte Carlo method was used to model the Doppler broadening of 24^{24}Mg γ\gamma-ray lines caused by nuclear recoil from proton emission. Shell-model calculations using two newly developed universal \textit{sd}-shell Hamiltonians, USDC and USDI, were performed. The most precise 25^{25}Si half-life to date has been determined. A new proton branch at 724(4)~keV and new proton-γ\gamma-ray coincidences have been identified. Three 24^{24}Mg γ\gamma-ray lines and eight 25^{25}Al γ\gamma-ray lines are observed for the first time in 25^{25}Si decay. The first measurement of the 25^{25}Si β\beta-delayed γ\gamma ray intensities through the 25^{25}Al unbound states is reported. All the bound states of 25^{25}Al are observed to be populated in the β\beta decay of 25^{25}Si. Several inconsistencies between the previous measurements have been resolved, and new information on the 25^{25}Al level scheme is provided. An enhanced decay scheme has been constructed and compared to the mirror decay of 25^{25}Na and the shell-model calculations. The measured excitation energies, γ\gamma-ray and proton branchings, log~ftft values, and Gamow-Teller transition strengths for the states of 25^{25}Al populated in the β\beta decay of 25^{25}Si are in good agreement with the shell-model calculations, offering gratifyingly consistent insights into the fine nuclear structure of 25^{25}Al.

Keywords

Cite

@article{arxiv.2009.00825,
  title  = {$^{25}$Si $\beta^+$-decay spectroscopy},
  author = {L. J. Sun and M. Friedman and T. Budner and D. Pérez-Loureiro and E. Pollacco and C. Wrede and B. A. Brown and M. Cortesi and C. Fry and B. E. Glassman and J. Heideman and M. Janasik and A. Kruskie and A. Magilligan and M. Roosa and J. Stomps and J. Surbrook and P. Tiwari},
  journal= {arXiv preprint arXiv:2009.00825},
  year   = {2021}
}
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