New Results for Neutron Radiative Capture on 10be at Energies from 25.3 meV to 10.0 meV

TL;DR

This paper presents a modified potential cluster model that accurately describes neutron radiative capture on 10Be at low energies, aligning well with experimental data and providing insights into nuclear interactions relevant for astrophysics.

Contribution

The study introduces a modified potential cluster model that successfully reproduces experimental cross-sections for neutron capture on 10Be at astrophysical energies, incorporating detailed interaction potentials.

Findings

Successful description of experimental cross-sections

Construction of interaction potentials matching bound state characteristics

Alignment with Coulomb dissociation data

Abstract

It is shown that in the framework of the modified potential cluster model we succeeded in correct describing the available experimental data for neutron radiative capture on 10Be total cross-sections at low, astrophysical and thermal energies. All interaction potentials for different partial waves are constructed by describing the basic characteristics of the bound states and spectra of final nucleus. Experimental data for the total cross-sections of the neutron radiative capture on 10Be were obtained by using known data for reduced probabilities of 11Be Coulomb dissociation.