# Finite temperature pairing re-entrance in drip-line $^{48}$Ni nucleus

**Authors:** M. Belabbas, J.J. Li, J. Margueron

arXiv: 1706.04222 · 2017-08-14

## TL;DR

This paper predicts that the proton-rich nucleus $^{48}$Ni exhibits a finite temperature pairing re-entrance phenomenon, with significant effects on its nuclear structure and pairing correlations at specific critical temperatures.

## Contribution

It introduces the prediction of finite temperature pairing re-entrance in $^{48}$Ni using advanced nuclear theories, highlighting the role of resonant states and critical temperatures.

## Key findings

- Pairing re-entrance occurs at two critical temperatures.
- Proton resonant states significantly influence pairing correlations.
- Pairing re-entrance alters single particle energies and occupation numbers.

## Abstract

Finite-temperature Hartree-Fock-Bogoliubov theory using Skyrme interactions and Relativistic Hartree-Fock effective Lagrangians, predicts $^{48}$Ni as being a possible candidate for the finite temperature pairing re-entrance phenomenon. For this proton-drip-line nucleus, proton resonant states are expected to contribute substantially to pairing correlations and the two predicted critical temperatures are $T_{c1}\sim 0.08-0.2$~MeV and $T_{c2}\sim 0.7-0.9$~MeV. It is also shown that pairing re-entrance modifies the proton single particle energies around the Fermi level, as well as occupation numbers, and quasi-particle levels. The understanding of pairing re-entrance in $^{48}$Ni presently challenge our understanding of exotic matter under extreme conditions.

## Full text

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## Figures

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## References

62 references — full list in the complete paper: https://tomesphere.com/paper/1706.04222/full.md

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Source: https://tomesphere.com/paper/1706.04222