# Pairing in spherical nuclei: quasi-particle random phase approximation   calculations with the Gogny interaction

**Authors:** V. De Donno, G. Co', M. Anguiano, A. M. Lallena

arXiv: 1705.07602 · 2017-06-07

## TL;DR

This paper explores how pairing interactions influence various nuclear excitations in spherical nuclei using Gogny-type interactions across multiple theoretical frameworks, revealing that pairing slightly raises excitation energies but does not significantly improve experimental agreement.

## Contribution

It applies a consistent Gogny interaction across Hartree-Fock, BCS, and QRPA calculations to systematically study pairing effects on nuclear excitations in spherical nuclei.

## Key findings

- Pairing increases excitation energies across studied cases.
- Effects of pairing are small and do not significantly improve experimental agreement.
- Study covers electric, magnetic, and giant resonances in oxygen and calcium isotopes.

## Abstract

We investigate the effects of the pairing in spherical nuclei. We use the same finite-range interaction of Gogny type in the three steps of our approach, Hartree-Fock, Bardeen, Cooper and Schrieffer, and quasi-particle random phase approximation calculations. We study electric and magnetic dipole, quadrupole and octuple excitations in oxygen and calcium isotopes and also in isotopes with 20 neutrons. We investigate the pairing effects on single particle energies and occupation probabilities, on the excitation energies, $B$-values and collectivity of low-lying states including the isoscalar electric dipole and the magnetic dipole excitations, and also the giant resonances. The inclusion of the pairing increases the values of the excitation energies in all the cases we have studied. In general, the effects of the pairing are too small to remarkably improve the agreement with the available experimental data.

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/1705.07602/full.md

## References

42 references — full list in the complete paper: https://tomesphere.com/paper/1705.07602/full.md

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Source: https://tomesphere.com/paper/1705.07602