Dr. Mohamed Hsini, University of Monastir, Tunisia
Dr. Mohamed Hsini πΉπ³ is a Tunisian physicist specializing in magnetocaloric materials and magnetic refrigeration. He holds a PhD from the Faculty of Sciences of Monastir, Tunisia, and currently works as an Assistant Lecturer at the University of Burgundy, France. Dr. Hsini has contributed extensively to the field with numerous peer-reviewed publications and book chapters on the theoretical modeling of magnetocaloric effects. His international experience includes postdoctoral research at the Universidade Federal do Rio de Janeiro, Brazil. He is fluent in Arabic, French, and English and actively participates in global scientific conferences. π¬π
Publication Profile
Google Scholar
Education
Dr. Mohamed Hsini πΉπ³ completed his Baccalaureate in Experimental Sciences in 2011 at the Secondary School of Sabella, Sidi Bouzid, Tunisia. He earned a Bachelor’s degree in Physics in 2014 and a Research Master’s degree in Quantum Physics in 2016, both from the Faculty of Sciences of Monastir. Dr. Hsini pursued his PhD in Physics at the same institution between 2016 and 2019, focusing on the simulation of magnetocaloric effects in manganite materials. His solid academic foundation has propelled his research and academic career, contributing to both theoretical and experimental aspects of material science. ππ
Experience
Dr. Mohamed Hsini π«π· currently serves as an A.T.E.R at the University of Burgundy, France, where he teaches subjects related to materials science, programming, and optics at undergraduate and professional levels. From 2021 to 2023, he was a Contractual Assistant at the University of Monastir, Tunisia, offering tutorials and practical work in physics and electrostatics. Dr. Hsini’s postdoctoral experience in Brazil at the Universidade Federal do Rio de Janeiro (2019β2021) focused on magnetocaloric materials and refrigeration technologies, building on his academic and research expertise in magnetism and material science. πΌπ§
Awards and Honors
Dr. Mohamed Hsini πΉπ³ has been recognized for his contributions to the field of magnetism and material science. His research has led to multiple peer-reviewed publications in prestigious journals, advancing knowledge in magnetocaloric materials and refrigeration technologies. He has also contributed to academic literature through book chapters and international oral communications. Dr. Hsini’s work has earned him international recognition, presenting his findings at several prestigious conferences, including the 2nd Congress on Multifunctional Materials and Applications in Tunisia. His passion for scientific innovation continues to drive his academic journey. π
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Research Focus
Dr. Mohamed Hsini πΉπ³ focuses his research on the study and simulation of magnetocaloric effects in various materials, particularly manganites and Heusler alloys. His work includes theoretical modeling and the estimation of magnetic entropy changes, which have significant applications in magnetic refrigeration technologies. He investigates the critical behavior and properties of magnetocaloric materials to enhance their efficiency. Dr. Hsiniβs research contributes to the development of sustainable and energy-efficient cooling systems. His expertise extends to the study of magnetic energy recovery and energy conversion in advanced materials, aiming to push the boundaries of low-temperature physics. βοΈπ§ͺ
Publication Top Notes
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Magnetocaloric effect studying by means of theoretical models in Prβ.β
Srβ.β
MnOβ manganite – M Hsini, S Hcini, S Zemni, Journal of Magnetism and Magnetic Materials 466, 368-375, Cited by 40 π, 2018 π
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Effect of iron doping at Mn-site on complex impedance spectroscopy properties of Ndβ.ββBaβ.ββMnOβ perovskite – M Hsini, N Hamdaoui, S Hcini, ML Bouazizi, S Zemni, L Beji, Phase Transitions 91(3), 316-331, Cited by 26 π, 2018 π
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Magnetocaloric effect simulation by Landau theory and mean-field approximation in Prβ.β
Srβ.β
MnOβ – M Hsini, S Hcini, S Zemni, The European Physical Journal Plus 134(12), 588, Cited by 23 π, 2019 π
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Critical behavior investigated through magnetocaloric effect in PrSrMnO and Pr(Sr, Ca)MnO manganites – M Hsini, L Ghivelder, F Parisi, Journal of Magnetism and Magnetic Materials 535, 168059, Cited by 17 π, 2021 π
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Study of the Magnetocaloric Effect by Means of Theoretical Models in Laβ.ββCaβ.βNaβ.βMnOβ Manganite Compound – B Alzahrani, M Hsini, S Hcini, M Boudard, A Dhahri, ML Bouazizi, Journal of Low Temperature Physics 200, 26-39, Cited by 14 π, 2020 π
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Study of Magnetic Entropy Change in Ndβ.ββBaβ.ββMnβ.ββFeβ.ββOβ by Means of Theoretical Models – M Hsini, S Hcini, S Zemni, Journal of Superconductivity and Novel Magnetism 31, 81-87, Cited by 13 π, 2018 π
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Simulation of the magnetocaloric effect by means of theoretical models in GdβNiβ and GdβCoNi systems – M Hsini, M Boutaleb, The European Physical Journal Plus 135(2), 186, Cited by 7 π, 2020 π
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Spontaneous Magnetization Estimation and Magnetocaloric Effect Study by Means of Theoretical Models in Laβ.ββPbβ.ββMnOβ – S Khadhraoui, N Zaidi, M Hsini, ZA Alrowaili, Journal of Superconductivity and Novel Magnetism 32, 1285-1291, Cited by 7 π, 2019 π
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Modeling the Magnetocaloric Effect of Laβ.ββPbβ.ββMnOβ by the Mean-Field Theory – M Hsini, S Khadhraoui, N Zaidi, ZA Alrowaili, Journal of Superconductivity and Novel Magnetism 31, 3717-3722, Cited by 7 π, 2018 π
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Study and Modeling of the Magnetocaloric Effect in the Laβ.ββBaβ.ββMnβ.ββFeβ.βOβ Compound – S Khadhraoui, M Baazaoui, M Hsini, M Oumezzine, Journal of Superconductivity and Novel Magnetism 32, 291-300, Cited by 6 π, 2019 π