Nuclear Radii of Unstable Nuclei

TL;DR

This review discusses methods for extracting nuclear radii and distribution parameters in stable and unstable isotopes, emphasizing Glauber Theory applications and recent experimental advances in light exotic nuclei.

Contribution

It provides a comprehensive overview of theoretical approaches and experimental techniques for determining nuclear radii, including recent developments in laser spectroscopy and proton scattering.

Findings

Glauber Theory effectively models reaction cross sections.

Monte Carlo methods improve calculations of reaction cross sections.

Recent measurements have refined charge radius data for light exotic nuclei.

Abstract

In the presented review we discuss the problem of extraction the parameters of nuclear matter and charge distribution in stable and unstable isotopes. A substantial amount of information on the nuclear radii and other distribution parameters in light exotic nuclei has been obtained from experiments on intermediate-energy nucleus-nucleus collisions. The analyses of these experiments is usually performed with the help of the Glauber Theory. We review the main assumptions the Glauber Theory and show how this theoretical approach is used to calculate reaction and interaction cross sections. We also show how radii of nuclear matter can be obtained from the analysis of the experimental data on reaction cross sections. In the provided analysis reaction cross sections were calculated in optical and rigid approximations of the Glauber Theory as well as using explicit expressions. Numerical calculations of Glauber's explicit expressions for reaction cross sections were done using Monte Carlo technique. Recent results of the precise measurements of charge radii of light exotic nuclei which were done using the laser-spectroscopy technique as well as the method of the investigation of the nuclear matter distributions in proton elastic scattering experiments in inverse kinematics are also discussed.