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Main Authors: Yu, Y. X., Chen, Q. Y., Qi, Chong, Fu, G. J.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.14506
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author Yu, Y. X.
Chen, Q. Y.
Qi, Chong
Fu, G. J.
author_facet Yu, Y. X.
Chen, Q. Y.
Qi, Chong
Fu, G. J.
contents In this work, we present a systematic study of low-lying states and electromagnetic properties of the semi-magic $N = 82$ isotonic chain with proton number $Z=51$-77, using the full configuration interaction shell model with a newly developed high-quality effective interaction. The calculations are performed in a large model space that includes all proton orbitals between $Z = 50$ and 82: $0g_{7/2}$, $1d_{5/2}$, $1d_{3/2}$, $2s_{1/2}$, and $0h_{11/2}$. The effective interaction is derived through the principal component analysis approach, starting from 160 two-body matrix elements and 5 single-particle energies and considering up to 30 degrees of freedom. Those are optimized by fitting to 204 available experimental energy levels. The resulting root-mean-square deviation is as low as 102 keV. The new interaction successfully reproduces the binding energies, low-lying spectra, electric quadrupole transition probabilities $B(E2)$, and magnetic dipole moments across both even-even and odd-mass isotones. The nuclear structure of low-lying states is analyzed in detail. Additionally, predictions are made for several more proton-rich nuclei beyond current experimental reach, including $^{155}\mathrm{Ta}$, $^{156}\mathrm{W}$, $^{157}\mathrm{Re}$, $^{158}\mathrm{Os}$, and $^{159}\mathrm{Ir}$.
format Preprint
id arxiv_https___arxiv_org_abs_2507_14506
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Shell model description of the $N=82$ isotonic chain with a new effective interaction
Yu, Y. X.
Chen, Q. Y.
Qi, Chong
Fu, G. J.
Nuclear Theory
In this work, we present a systematic study of low-lying states and electromagnetic properties of the semi-magic $N = 82$ isotonic chain with proton number $Z=51$-77, using the full configuration interaction shell model with a newly developed high-quality effective interaction. The calculations are performed in a large model space that includes all proton orbitals between $Z = 50$ and 82: $0g_{7/2}$, $1d_{5/2}$, $1d_{3/2}$, $2s_{1/2}$, and $0h_{11/2}$. The effective interaction is derived through the principal component analysis approach, starting from 160 two-body matrix elements and 5 single-particle energies and considering up to 30 degrees of freedom. Those are optimized by fitting to 204 available experimental energy levels. The resulting root-mean-square deviation is as low as 102 keV. The new interaction successfully reproduces the binding energies, low-lying spectra, electric quadrupole transition probabilities $B(E2)$, and magnetic dipole moments across both even-even and odd-mass isotones. The nuclear structure of low-lying states is analyzed in detail. Additionally, predictions are made for several more proton-rich nuclei beyond current experimental reach, including $^{155}\mathrm{Ta}$, $^{156}\mathrm{W}$, $^{157}\mathrm{Re}$, $^{158}\mathrm{Os}$, and $^{159}\mathrm{Ir}$.
title Shell model description of the $N=82$ isotonic chain with a new effective interaction
topic Nuclear Theory
url https://arxiv.org/abs/2507.14506