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Nuclear matrix elements of neutrinoless double-$β$ decay in the triaxial projected shell model

Published 6 May 2021 in nucl-th | (2105.02649v1)

Abstract: The nuclear matrix elements of neutrinoless double-$\beta$ decay for nuclei ${76}$Ge, ${82}$Se, ${100}$Mo, ${130}$Te, and ${150}$Nd are studied within the triaxial projected shell model, which incorporates simultaneously the triaxial deformation and quasiparticle configuration mixing. The low-lying spectra and the $B(E2:0+\rightarrow2+)$ values are reproduced well. The effects of the quasiparticles configuration mixing, the triaxial deformation, and the closure approximation on the nuclear matrix elements are studied in detail. For nuclei ${76}$Ge, ${82}$Se, ${100}$Mo, ${130}$Te, and ${150}$Nd, the nuclear matrix elements are respectively reduced by the quasiparticle configuration mixing by 6%, 7%, 2%, 3%, and 4%, and enhanced by the odd-odd intermediate states by 7%, 4%, 11%, 20%, and 14%. Varying the triaxial deformation $\gamma$ from $0\circ$ to $60\circ$ for the mother and daughter nuclei, the nuclear matrix elements change by 41%, 17%, 68%, 14%, and 511% respectively for ${76}$Ge, ${82}$Se, ${100}$Mo, ${130}$Te, and ${150}$Nd, which indicates the importance of treating the triaxial deformation consistently in calculating the nuclear matrix elements.

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