Effect of the transfer reactions for 16O+10B elastic scattering

N. Burtebayev; Sh. Hamada; Awad A. Ibraheem; K. Rusek; M.; Wolinska-Cichocka; J. Burtebayeva; N. Amangeldi; Maulen Nassurlla; Marzhan; Nassurlla; A. Sabidolda

arXiv:1908.09276·nucl-ex·October 18, 2019

Effect of the transfer reactions for 16O+10B elastic scattering

N. Burtebayev, Sh. Hamada, Awad A. Ibraheem, K. Rusek, M., Wolinska-Cichocka, J. Burtebayeva, N. Amangeldi, Maulen Nassurlla, Marzhan, Nassurlla, A. Sabidolda

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TL;DR

This paper reports experimental measurements and theoretical analysis of 16O+10B elastic scattering at 24 MeV, using the double-folding optical potential model to understand the scattering dynamics.

Contribution

It provides new experimental data and applies the double-folding optical potential model to analyze the 16O+10B system at various energies.

Findings

01

Angular distribution data at 24 MeV.

02

Theoretical analysis of scattering dynamics.

03

Validation of the optical potential model.

Abstract

In this study, the angular distribution of the 16O+10B elastic scattering was measured at Elab (16O)= 24 MeV. In addition to our experimental data, this nuclear system was theoretically analyzed at different energies to study the dynamics of scattering for this system. The data were analyzed within the framework of the double-folding optical potential model.

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