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Coexisting structural disorder and robust spin-polarization in half-metallic FeMnVAl
Physical Review B ( IF 3.7 ) Pub Date : 2022-09-28 , DOI: 10.1103/physrevb.106.115148 Shuvankar Gupta , Sudip Chakraborty , Santanu Pakhira , Celine Barreteau , Jean-Claude Crivello , Bilwadal Bandyopadhyay , Jean Marc Greneche , Eric Alleno , Chandan Mazumdar
Physical Review B ( IF 3.7 ) Pub Date : 2022-09-28 , DOI: 10.1103/physrevb.106.115148 Shuvankar Gupta , Sudip Chakraborty , Santanu Pakhira , Celine Barreteau , Jean-Claude Crivello , Bilwadal Bandyopadhyay , Jean Marc Greneche , Eric Alleno , Chandan Mazumdar
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Half-metallic ferromagnets (HMFs) are one of the most promising materials in the field of spintronics due to their unique band structure, consisting of one spin subband having metallic characteristics along with another subband with semiconductor-like behavior. In this work, we report the synthesis of a novel quaternary Heusler alloy—FeMnVAl—and we have studied the structural, magnetic, transport, and electronic properties complemented with first-principles calculations. Among different possible structurally ordered arrangements, the optimal structure is identified by theoretical energy minimization. The corresponding spin-polarized band-structure calculations indicate the presence of a half-metallic ferromagnetic ground state. A detailed and careful investigation of the x-ray diffraction data, Mössbauer spectra, and nuclear magnetic resonance spectra suggests the presence of site disorder between the Fe and Mn atoms in the stable ordered structure of the system. The magnetic susceptibility measurement clearly establishes a ferromagnetic-like transition below K. The Mössbauer spectrometry measurements suggest that only the Mn spins could be responsible for the magnetic order, which is consistent with our theoretical calculation. Surprisingly, the density-functional-theory calculations reveal that the spin-polarization value is almost immunized (92.4% 90.4%) from the Mn-Fe structural disorder, even when nonmagnetic Fe and moment-carrying Mn sites are entangled inseparably. The robustness of spin polarization and half-metallicity in the studied FeMnVAl compound comprising structural disorder is thus quite interesting and could provide a new direction to investigate and understand the exact role of disorders on spin polarization in this class of materials, beyond the available knowledge.
更新日期:2022-09-28
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