Spin and Orbital Magnetisms of NiFe Compound: Density Functional Theory Study and Monte Carlo Simulation
R. Masrour1**, A. Jabar1, E. K. Hlil2, M. Hamedoun3, A. Benyoussef3,4, A. Hourmatallah5, K. Bouslykhane6, A. Rezzouk6, N. Benzakour6
1Laboratory of Materials, Processes, Environment and Quality, Cady Ayyed University, National School of Applied Sciences, Safi 63 46000, Morocco 2Institut Néel, CNRS et Université Grenoble Alpes, BP 166, F-38042 Grenoble Cedex 9, France 3Institute of Nanomaterials and Nanotechnologies, MAScIR, Rabat, Morocco 4Hassan II Academy of Science and Technology, Rabat, Morocco 5Equipe de Physique du Solide, Laboratoire LIPI, Ecole Normale Supérieure, BP 5206, Bensouda, Fes, Morocco 6Laboratoire de Physique du Solide, Université Sidi Mohammed Ben Abdellah, Faculté des Sciences DharMahraz, BP 1796, Fes, Morocco
Abstract:The self-consistent ab initio calculations based on the density functional theory approach using the full potential linear augmented plane wave method are performed to investigate both the electronic and magnetic properties of the NiFe compound. Polarized spin within the framework of the ferromagnetic state between magnetic ions is considered. Also, magnetic moments considered to lie along (001) axes are computed. The Monte Carlo simulation is used to study the magnetic properties of NiFe. The transition temperature $T_{\rm C}$, hysteresis loop, coercive field and remanent magnetization of the NiFe compound are obtained using the Monte Carlo simulation.
(Magnetization curves, hysteresis, Barkhausen and related effects)
引用本文:
. [J]. 中国物理快报, 2018, 35(3): 36401-.
R. Masrour, A. Jabar, E. K. Hlil, M. Hamedoun, A. Benyoussef, A. Hourmatallah, K. Bouslykhane, A. Rezzouk, N. Benzakour. Spin and Orbital Magnetisms of NiFe Compound: Density Functional Theory Study and Monte Carlo Simulation. Chin. Phys. Lett., 2018, 35(3): 36401-.
Blaha P, Schwartz K, Madsen G K H, Kvasnicka D and Luitz J 2001 WIEN2K: An Augmented Plane Wave Plus Local Orbitals Program for Calculating Cryst. Properties (Vienna University of Technology, Austria) ISBN 3-9501031-1-2
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2018, Vol. 35 
