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Main Authors: Jabar, A., Benyoussef, S., Bahmad, L.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.07116
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author Jabar, A.
Benyoussef, S.
Bahmad, L.
author_facet Jabar, A.
Benyoussef, S.
Bahmad, L.
contents One of the most active classes of nanostructures is Fullerene C$_{20}$, which has been exploited as an active component in significant applications. In this investigation, we used Monte Carlo simulations to investigate the magnetic and magnetocaloric properties of the mixed spins 2 and 3/2 Fullerene C$_{20}$ system. Ferrimagnetic and ferromagnetic phases are stable, according to the ground state phase diagrams that have been constructed. The behavior of the magnetizations and the derivative of magnetization, in particular, have shown the impact of rising temperature. Additionally, we found an increase of the reduced Curie temperature to reach $t_C = 3$, when the interactions between the spins S are increased. For numerous reduced external magnetic fields and reduced temperatures, the magnetic entropy variations are studied. The Relative Cooling Power (RCP) is calculated. It is demonstrated that the reduced exchange coupling interactions p and r lead to an increase in the lowered magnetic coercive field.
format Preprint
id arxiv_https___arxiv_org_abs_2411_07116
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Magnetic and Magnetocaloric Properties of a C$_{20}$ Fullerene Structure: Monte Carlo Study
Jabar, A.
Benyoussef, S.
Bahmad, L.
Materials Science
One of the most active classes of nanostructures is Fullerene C$_{20}$, which has been exploited as an active component in significant applications. In this investigation, we used Monte Carlo simulations to investigate the magnetic and magnetocaloric properties of the mixed spins 2 and 3/2 Fullerene C$_{20}$ system. Ferrimagnetic and ferromagnetic phases are stable, according to the ground state phase diagrams that have been constructed. The behavior of the magnetizations and the derivative of magnetization, in particular, have shown the impact of rising temperature. Additionally, we found an increase of the reduced Curie temperature to reach $t_C = 3$, when the interactions between the spins S are increased. For numerous reduced external magnetic fields and reduced temperatures, the magnetic entropy variations are studied. The Relative Cooling Power (RCP) is calculated. It is demonstrated that the reduced exchange coupling interactions p and r lead to an increase in the lowered magnetic coercive field.
title Magnetic and Magnetocaloric Properties of a C$_{20}$ Fullerene Structure: Monte Carlo Study
topic Materials Science
url https://arxiv.org/abs/2411.07116