# Effects of one valence proton on seniority and angular momentum of   neutrons in neutron-rich $^{122-131}$Sb$_{51}$ isotopes

**Authors:** S. Biswas, A. Lemasson, M. Rejmund, A. Navin, Y.H. Kim, C., Michelagnoli, I. Stefan, R. Banik, P. Bednarczyk, S. Bhattacharya, S., Bhattacharyya, E. Cl\'ement, H. L. Crawford, G. de France, P. Fallon, G., Fr\'emont, J. Goupil, B. Jacquot, H.J. Li, J. Ljungvall, A. Maj, L., M\'enager, V. Morel, R. Palit, R.M. P\'erez-Vidal, J. Ropert, D. Barrientos,, G. Benzoni, B. Birkenbach, A.J. Boston, H.C. Boston, B. Cederwall, J., Collado, D.M. Cullen, P. D\'esesquelles, C. Domingo-Pardo, J. Dudouet, J., Eberth, V. Gonzalez, L. J. Harkness-Brennan, H. Hess, A. Jungclaus, W., Korten, M. Labiche, A. Lefevre, R. Menegazzo, D. Mengoni, B. Million, D. R., Napoli, A. Pullia, B. Quintana, D. Ralet, F. Recchia, P. Reiter, F. Saillant,, M.D. Salsac, E. Sanchis, O. Stezowski, Ch. Theisen, J.J. Valiente-Dobon, M., Zielinska

arXiv: 1906.01245 · 2019-06-26

## TL;DR

This study investigates how a single valence proton influences neutron seniority and angular momentum in neutron-rich antimony isotopes, combining experimental gamma-ray spectroscopy with shell-model calculations.

## Contribution

It provides new experimental data on isomers and gamma transitions in Sb isotopes and introduces modifications to shell-model interactions for better theoretical agreement.

## Key findings

- Identification of new isomers and gamma transitions in Sb isotopes.
- Shell-model calculations show the valence proton causes significant mixing of neutron configurations.
- Relative excitation energies remain constant across different neutron numbers.

## Abstract

The neutron-rich $^{122-131}$Sb isotopes were produced as fission fragments in the reaction $^{9}$Be($^{238}$U,~f) with 6.2 MeV/u beam energy. An unique setup, consisting of AGATA, VAMOS++ and EXOGAM detectors, was used which enabled the prompt-delayed gamma-ray ($\gamma$) spectroscopy of fission fragments in the time range of 100 ns - 200 $\mu$s. New isomers, prompt and delayed transitions were established in the even-A $^{122-130}$Sb isotopes. In the odd-A $^{123-131}$Sb isotopes, new prompt and delayed $\gamma$-ray transitions were identified, in addition to the confirmation of the previously known isomers. The half-lives of the isomeric states and the $B(E2)$ transition probabilities of the observed transitions depopulating these isomers were extracted. The experimental data was compared with the theoretical results obtained in the framework of Large-Scale Shell-Model (LSSM) calculations in a restricted model space. Modifications of several components of the shell model interaction were introduced to obtain a consistent agreement with the excitation energies and the $B(E2)$ transition probabilities in neutron-rich Sn and Sb isotopes. The isomeric configurations in Sn and Sb were found to be relatively pure. Further, the calculations revealed that the presence of a single valence proton, mainly in the $g_{7/2}$ orbital in Sb isotopes, leads to significant mixing (due to the $\nu\pi$ interaction) of: (i) the neutron seniorities ($\upsilon_{\nu}$) and (ii) the neutron angular momentum ($I_{\nu}$). The above features have a weak impact on the excitation energies, but have an important impact on the $B(E2)$ transition probabilities. In addition, a constancy of the relative excitation energies irrespective of neutron seniority and neutron number in Sn and Sb was observed.

## Full text

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## Figures

20 figures with captions in the complete paper: https://tomesphere.com/paper/1906.01245/full.md

## References

49 references — full list in the complete paper: https://tomesphere.com/paper/1906.01245/full.md

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Source: https://tomesphere.com/paper/1906.01245