# Neutron skins of atomic nuclei: per aspera ad astra

**Authors:** M. Thiel, C. Sfienti, J. Piekarewicz, C.J. Horowitz, M. Vanderhaeghen

arXiv: 1904.12269 · 2019-09-04

## TL;DR

This paper reviews the importance of accurately determining neutron-skin thickness in heavy nuclei, which is crucial for understanding nuclear forces, symmetry energy, and their implications across physics disciplines.

## Contribution

It discusses the challenges and prospects of achieving a precise, model-independent measurement of neutron-skin thickness in heavy nuclei, highlighting its significance for nuclear physics and astrophysics.

## Key findings

- Neutron-skin thickness is highly sensitive to symmetry energy density dependence.
- Current experimental methods lack the precision for a model-independent determination.
- Advances in facilities and techniques are essential for progress.

## Abstract

The complex nature of the nuclear forces generates a broad range and diversity of observational phenomena. Heavy nuclei, though orders of magnitude less massive than neutron stars, are governed by the same underlying physics, which is enshrined in the nuclear equation of state. Heavy nuclei are expected to develop a neutron-rich skin where many neutrons collect near the surface. Such a skin thickness is strongly sensitive to the poorly-known density dependence of the symmetry energy near saturation density. An accurate and model-independent determination of the neutron-skin thickness of heavy nuclei would provide a significant first constraint on the density dependence of the nuclear symmetry energy. The determination of the neutron-skin thickness of heavy nuclei has far reaching consequences in many areas of physics as diverse as heavy-ion collisions, polarized electron and proton scattering off nuclei, precision tests of the standard model using atomic parity violation, and nuclear astrophysics. While a systematic and concerted experimental effort has been made to measure the neutron-skin thickness of heavy nuclei, a precise and model-independent determination remains elusive. How to move forward at a time when many new facilities are being commissioned and how to strengthen the synergy with other areas of physics are primary goals of this review.

## Full text

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## Figures

19 figures with captions in the complete paper: https://tomesphere.com/paper/1904.12269/full.md

## References

126 references — full list in the complete paper: https://tomesphere.com/paper/1904.12269/full.md

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Source: https://tomesphere.com/paper/1904.12269