β-Decay Half-Lives Serve as Novel Evidence for the New Magic Number \(N=32\)
Abstract
Conventional signatures of nuclear magic number, including low-lying quadrupole collectivity and mass systematics, face significant challenges when probing emergent shell closures near the drip line. However, β-decay half-lives are among the first experimental observables measurable following the discovery of neutron-rich isotopes. This letter demonstrates that β-decay half-lives provide evidence for the emergent magic number N=32. The observed half-life pattern around the N=32 can be attributed to the occupation probabilities of orbitals above this shell gap, which directly reflect the gap's magnitude. Our results reveal a pronounced N=32 shell gap in Ca isotopes and a weaker yet apparent gap in K isotopes, consistent with mass and electromagnetic transition data. Furthermore, the analysis indicates no prominent closed-shell signature at N=32 in Ar and Cl isotopes.
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