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Magnetization and Compensation Behaviors in a Mixed Spins (3/2, 1) Cubic Lattice with Monte Carlo Simulation

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Abstract

Using Monte Carlo simulations under the Metropolis algorithm, the magnetic properties of a Mixed Spins (3/2, 1) cubic lattice modeled by mixed spin Ising model have been investigated. First, we discuss the ground state phase diagrams at zero temperature corresponding to different parameters of the model. Then, by choosing ferrimagnetic phases found in the obtained phase diagrams, we analyze the magnetization and compensation behaviors in our system. Striking results have been found; especially, the competition between exchange coupling interactions generates a critical temperature \({T}_{C}\) and a compensation temperature \({T}_{comp}\) with \({T}_{comp}<{T}_{C}\). Moreover, the presence of crystal and external magnetic fields leads to the appearance of a second compensation temperature with \({T}_{comp1}<{T}_{comp2}{\ll T}_{C}\).

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Authors and Affiliations

  1. Laboratory of Bio-Geosciences and Materials Engineering, Higher Normal School, Hassan II University, Casablanca, Morocco

    A. Elidrysy, S. Harir, A. Zouhair & Y. Boughaleb

  2. Department of Physics and Chemistry, Regional Center for the Professions of Education and Training, Casablanca, Casablanca–Settat, Morocco

    S. Harir

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  1. A. Elidrysy
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  2. S. Harir
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  4. Y. Boughaleb
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Elidrysy, A., Harir, S., Zouhair, A. et al. Magnetization and Compensation Behaviors in a Mixed Spins (3/2, 1) Cubic Lattice with Monte Carlo Simulation. J Supercond Nov Magn 35, 2407–2415 (2022). https://doi.org/10.1007/s10948-022-06180-1

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  • DOI: https://doi.org/10.1007/s10948-022-06180-1

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