Effect of different nucleon–nucleon interactions based on relativistic mean field theory on elastic scattering cross-sections of proton and neutron halo nuclei.

Bibliographic Details
Title:	Effect of different nucleon–nucleon interactions based on relativistic mean field theory on elastic scattering cross-sections of proton and neutron halo nuclei.
Authors:	Aygun, M¹ (AUTHOR) murata.25@gmail.com
Superior Title:	Pramana: Journal of Physics. Dec2022, Vol. 96 Issue 4, p1-9. 9p.
Subject Terms:	MEAN field theory, PROTON scattering, NUCLEON-nucleon interactions, ELASTIC scattering, *NEUTRONS
Abstract:	In our study, a comparative analysis of different nucleon–nucleon (NN) interactions which are produced within the relativistic mean field (RMF) theory is performed under the optical model. The real potential is obtained using the double-folding model for four different effective NN interactions such as R3Y(HS), R3Y(Z), R3Y(W) and R3Y(L1). The theoretical results are compared with M3Y effective NN interaction results which are calculated using this work. The similarities and differences of the NN interactions are discussed, and alternative NN interactions to M3Y are suggested. [ABSTRACT FROM AUTHOR]
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