Critical Behavior and Magnetocaloric Effect Simulation in NiMnGaTb Heusler Alloy

The critical behavior for the second-order ferromagnetic paramagnetic phase transition Ni 50 Mn 29 Ga 20.8 Tb 0.2 alloy is studied. The values of the critical exponents were found to be γ = 1.05 , β = 0.45 and are close to the ones described by the mean-field model. Using the Arrott–Noakes equation...

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Published in	Journal of low temperature physics Vol. 210; no. 1-2; pp. 334 - 346
Main Authors	Hsini, M., Zaidi, N., Khadhraoui, S.
Format	Journal Article
Language	English
Published	New York Springer US 2023 Springer Nature B.V
Subjects	Characterization and Evaluation of Materials Condensed Matter Physics Curie temperature Equations of state Ferromagnetism Heusler alloys Low temperature physics Magnetic Materials Magnetism Phase transitions Physics Physics and Astronomy Spontaneous magnetization Magnetic entropy change Landau theory Critical exponents
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Abstract	The critical behavior for the second-order ferromagnetic paramagnetic phase transition Ni 50 Mn 29 Ga 20.8 Tb 0.2 alloy is studied. The values of the critical exponents were found to be γ = 1.05 , β = 0.45 and are close to the ones described by the mean-field model. Using the Arrott–Noakes equation of state with these γ and β values, the Curie temperature was successfully calculated. The isothermal magnetization M and magnetic entropy change - Δ S M curves were simulated using the Arrott–Noakes equation, the Landau theory and a mean field model.
AbstractList	The critical behavior for the second-order ferromagnetic paramagnetic phase transition Ni50Mn29Ga20.8Tb0.2 alloy is studied. The values of the critical exponents were found to be γ=1.05, β=0.45 and are close to the ones described by the mean-field model. Using the Arrott–Noakes equation of state with these γ and β values, the Curie temperature was successfully calculated. The isothermal magnetization M and magnetic entropy change -ΔSM curves were simulated using the Arrott–Noakes equation, the Landau theory and a mean field model. The critical behavior for the second-order ferromagnetic paramagnetic phase transition Ni 50 Mn 29 Ga 20.8 Tb 0.2 alloy is studied. The values of the critical exponents were found to be γ = 1.05 , β = 0.45 and are close to the ones described by the mean-field model. Using the Arrott–Noakes equation of state with these γ and β values, the Curie temperature was successfully calculated. The isothermal magnetization M and magnetic entropy change - Δ S M curves were simulated using the Arrott–Noakes equation, the Landau theory and a mean field model.
Author	Khadhraoui, S. Hsini, M. Zaidi, N.
Author_xml	– sequence: 1 givenname: M. surname: Hsini fullname: Hsini, M. email: mohamed.hsini.14@gmail.com organization: Laboratory of Physical Chemistry of Materials, Department of Physics, Faculty of Science of Monastir, University of Monastir – sequence: 2 givenname: N. surname: Zaidi fullname: Zaidi, N. organization: Physics Department, Faculty of Sciences, Jouf University – sequence: 3 givenname: S. surname: Khadhraoui fullname: Khadhraoui, S. organization: Laboratory of Physical Chemistry of Materials, Department of Physics, Faculty of Science of Monastir, University of Monastir
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Snippet	The critical behavior for the second-order ferromagnetic paramagnetic phase transition Ni 50 Mn 29 Ga 20.8 Tb 0.2 alloy is studied. The values of the critical... The critical behavior for the second-order ferromagnetic paramagnetic phase transition Ni50Mn29Ga20.8Tb0.2 alloy is studied. The values of the critical...
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StartPage	334
SubjectTerms	Characterization and Evaluation of Materials Condensed Matter Physics Curie temperature Equations of state Ferromagnetism Heusler alloys Low temperature physics Magnetic Materials Magnetism Phase transitions Physics Physics and Astronomy
Title	Critical Behavior and Magnetocaloric Effect Simulation in NiMnGaTb Heusler Alloy
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