DFT-Mbj Study of Electronic and Magnetic Properties of Cubic Cecro3 Compound: An Ab-Initio Investigation

Abstract

By considering density functional theory (DFT) in terms of ab-initio investigation, we have explored the structural, electronic and magnetic properties of cubic CeCrO3 for the first time. In order to determine the structural stability of cubic CeCrO3 compound, we optimized the structure of CeCrO3 in non-magnetic (NM), ferromagnetic (FM) and Anti-ferromagnetic (AFM) phases by using PBE generalized gradient approximation (GGA) functional to find the exchangecorrelation potential. From structural optimization, the FM phase of CeCrO3 is observed to be stable. For computing electronic and magnetic properties, the
lately advanced modified Becke and Johnson local (spin) density approximation (mBJLDA) is used. Calculated band structures and density of states plots with an integer magnetic moment of 4 μB and reveal half-metallic character. In addition, s–d exchange constants (N0α) and p–d exchange constant (N0β) are determined, which are in agreement with a distinctive magneto-optical experiment.