Optimizing Configurations for Determining the Electromagnetic Properties of CsFeF3, NaFeF3, and RbFeF3 Fluorides: GGA vs GGA+U and TB-mBj Approaches

Filalli Sihem, Hamdad Noura
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Abstract

Abstract The structural, electronic and magnetic properties of (Cubic Pm-3m, Hexagonal-4H, orthorhombic Pnma, and orthorhombic Pbnm) phases of AFeF3 Fluorides (A = Cs, Na, and Rb) are reported theoretically using full potential linearized augmented plane waves method within the density functional theory (DFT). Using different exchange–correlation approximations including the generalized gradient approximation (PBE-GGA, WC-GGA, and PBEsol-GGA), also (GGA) with Hubbard potential (GGA + U) and The modified Becke Johnson potential (mBJ), we carried to determine various physical properties. The Calculations revealing that the estimated structural parameters are reliable with the experimentally reported data. Magnetically all these intermetallics are Ferromagnetic (FM). The ground-state energy of different magnetic phases studied showed that the magnetic moments are evaluated per atom, and overestimated by (GGA+U). Transfer charge reveals a strong covalent interaction between Fe-Fe atoms. Their electronic band structure and density of states indicate insulator behavior.
测定CsFeF3、NaFeF3和RbFeF3氟化物电磁特性的优化配置:GGA vs GGA+U和TB-mBj方法
利用密度泛函理论(DFT)中的全势线性化增广平面波方法,从理论上研究了AFeF3氟化物(A = Cs, Na, Rb)的(Cubic Pm-3m, hexonal - 4h,正交pma和正交Pbnm)相的结构、电子和磁性能。采用不同的交换相关近似,包括广义梯度近似(PBE-GGA、WC-GGA和PBEsol-GGA),以及具有Hubbard势(GGA + U)和修正Becke Johnson势(mBJ)的GGA,对不同的物理性质进行了测定。计算结果表明,估计的结构参数与实验报告的数据是可靠的。所有这些金属间化合物都是铁磁性的(FM)。对不同磁相的基态能量的研究表明,磁矩是按原子计算的,而(GGA+U)高估了磁矩。转移电荷揭示了Fe-Fe原子之间强烈的共价相互作用。它们的能带结构和态密度反映了绝缘体的行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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