This book explores magnetic properties and critical temperatures in inverse ferrite Fe (M2 Fe )O spinels (e.g., Fe, Co, Ni). It calculates transition and Curie Weiss temperatures, providing insights into their thermodynamic behavior. Using the full potential linearized augmented plane wave (FP-LAPW) method, it investigates electrical and magnetic structures of spinel chromite, revealing magnetic moments in MnCr2S . Seebeck coefficient and electrical conductivity are also calculated. Advanced techniques like Monte Carlo, DFT+U, and FLAPW analyze magnetic characteristics of LiMn . Ni . O and…mehr
This book explores magnetic properties and critical temperatures in inverse ferrite Fe (M2 Fe )O spinels (e.g., Fe, Co, Ni). It calculates transition and Curie Weiss temperatures, providing insights into their thermodynamic behavior. Using the full potential linearized augmented plane wave (FP-LAPW) method, it investigates electrical and magnetic structures of spinel chromite, revealing magnetic moments in MnCr2S . Seebeck coefficient and electrical conductivity are also calculated. Advanced techniques like Monte Carlo, DFT+U, and FLAPW analyze magnetic characteristics of LiMn . Ni . O and electronic/magnetic structures of Fe O . High-temperature series expansions calculate Néel temperature and critical exponents, while GFT determines thermal magnetization and susceptibility. The analysis exposes exchange interactions' effects on magnetic order and introduces asymmetric phases in ferrimagnetic spinel systems. This book serves as an invaluable resource for researchers, academics, and enthusiasts seeking a comprehensive understanding of magnetic properties and critical phenomena within diverse spinel materials.
Professor Rachid Masrour is a distinguished research professor in the Faculty of Sciences Dhar El Mahraz at Sidi Mohamed Ben Abdellah University, Fez, Morocco. He obtained his Ph.D. from the same university in March 2006. With a strong focus on Condensed Matter Physics, Material Sciences, Material for Energy, and Magnetism, he has made significant contributions to these fields. Professor Rachid Masrour has an impressive publication record, including 322 articles published in Web of Science and 10 book chapters in esteemed international journals. He has also authored two books. His outstanding scholarly achievements are reflected in his h-index of 32. He actively participates in numerous Moroccan and international congresses, sharing his expertise and fostering collaborations with laboratories worldwide. Recognized for his impactful research, Professor Rachid Masrour has received prestigious accolades. Notably, he was honored with the International Association of Advanced Materials Young Scientist Medal for his remarkable contributions to "Magnetism, Electromagnetism, and Spintronics" and delivered a lecture at the Advanced Materials World Congress in October 2022. He is also acknowledged as one of the world's most cited scientists in material physics, ranking among the top 2% according to Stanford University in 2020. In addition to his research achievements, Professor Rachid Masrour serves as a referee for several articles and holds editorial board memberships in various international journals. He has garnered recognition for his oral presentation, receiving the Best Oral Presentation Award at MCGPD-2021 from the Indian Association for Crystal Growth and the Indian Science and Technology Association International Organization for Crystal Growth in July 2021. Moreover, he was honored with the Outstanding Scientist Award by the VDGOOD Professional Association in India on February 15, 2020. Elsevier also acknowledged his work as one of the most critical contributions in 2020.
Inhaltsangabe
Exchange interactions types in magnetic materials.- Computational methods: Ab Initio calculations and Monte Carlo simulations.- Thermoelectric and spin-lattice coupling in a MnCr2S4 ferrimagnetic spinel.- Magnetic properties of LiMn1.5Ni0.5O4 spinel: Ab initio calculations and Monte Carlo simulation.
Exchange interactions types in magnetic materials.- Computational methods: Ab Initio calculations and Monte Carlo simulations.- Thermoelectric and spin-lattice coupling in a MnCr2S4 ferrimagnetic spinel.- Magnetic properties of LiMn1.5Ni0.5O4 spinel: Ab initio calculations and Monte Carlo simulation.
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