Analytic continuation in coupling constant applied to two-proton emitters
Abstract
For quantum meta-stable problems with three particles, the Be and Ne nuclei as two-proton () emitters provide a testing field. Considering the complexity of many-body meta-stable systems, a tractable solver has been on demand. We apply the analytic continuation in coupling constant (ACCC) to these nuclei, and confirm that this method can solve such problems consistently to the time-dependent results as well as to the experimental data. The sensitivity of the energies and widths to the proton-proton interaction is also investigated. The Be shows a smooth shift from short-life to long-life systems according to the proton-proton interaction. Same is concluded for the resonance of Ne. In contrast, for the first and second resonances of Ne, their energies and widths show the avoid-crossing behaviour, due to the coupling of two configurations in the core-proton subsystem, F. Since it requires only the bound-state solvers, the ACCC can be a low-cost option to solve three or more-body resonances.
Cite
@article{arxiv.2502.12577,
title = {Analytic continuation in coupling constant applied to two-proton emitters},
author = {Tomohiro Oishi and Masaaki Kimura},
journal= {arXiv preprint arXiv:2502.12577},
year = {2025}
}
Comments
6 pages, 6 figures, 2 tables