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Main Authors: Zhang, Zhen-Zhen, Wang, Hua-Lei, Xiao, Kui, Liu, Min-Liang
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.19254
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author Zhang, Zhen-Zhen
Wang, Hua-Lei
Xiao, Kui
Liu, Min-Liang
author_facet Zhang, Zhen-Zhen
Wang, Hua-Lei
Xiao, Kui
Liu, Min-Liang
contents Stimulated by the recent experimental discovery of the sub-$μ$s fission nucleus $^{252}$Rf [Phys. Rev. Lett. 134 (2025) 022501], we perform an improved configuration-constrained potential-energy-surface calculation, revealing the mechanism of intricate balance for the enhanced stability due to the high-$K$ (e.g., $K^π= 6^+$) isomer, possibly building on a shape isomeric state. The different deformation and coupling effects, such as triaxial $γ$, reflection-asymmetric $β_{3}$ and high-order $β_{6}$ deformations, are discussed for both ground state and isomeric state based on the corresponding potential-energy curves along the fission valley. In particular, it is pointed out for the first time that possible multipath decay, e.g., from the high-$K$ isomeric state to those states formed between potential energy surfaces of this isomeric state and the ground state during the fission process, may reduce the nuclear lifetime and balance the fission stability. These results elucidate not only the enhanced stability of the high-$K$ isomeric state, including the inversion of stability between it and the ground state, but also the limitation of the stability increase of such an isomeric state.
format Preprint
id arxiv_https___arxiv_org_abs_2512_19254
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Probing the delicate balance of the spontaneous fission instability in sub-μs superheavy nucleus 252Rf
Zhang, Zhen-Zhen
Wang, Hua-Lei
Xiao, Kui
Liu, Min-Liang
Nuclear Theory
Stimulated by the recent experimental discovery of the sub-$μ$s fission nucleus $^{252}$Rf [Phys. Rev. Lett. 134 (2025) 022501], we perform an improved configuration-constrained potential-energy-surface calculation, revealing the mechanism of intricate balance for the enhanced stability due to the high-$K$ (e.g., $K^π= 6^+$) isomer, possibly building on a shape isomeric state. The different deformation and coupling effects, such as triaxial $γ$, reflection-asymmetric $β_{3}$ and high-order $β_{6}$ deformations, are discussed for both ground state and isomeric state based on the corresponding potential-energy curves along the fission valley. In particular, it is pointed out for the first time that possible multipath decay, e.g., from the high-$K$ isomeric state to those states formed between potential energy surfaces of this isomeric state and the ground state during the fission process, may reduce the nuclear lifetime and balance the fission stability. These results elucidate not only the enhanced stability of the high-$K$ isomeric state, including the inversion of stability between it and the ground state, but also the limitation of the stability increase of such an isomeric state.
title Probing the delicate balance of the spontaneous fission instability in sub-μs superheavy nucleus 252Rf
topic Nuclear Theory
url https://arxiv.org/abs/2512.19254