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arxiv: 2009.05263 · v1 · pith:LXKITVOAnew · submitted 2020-09-11 · ❄️ cond-mat.mtrl-sci · physics.comp-ph

Electronic correlation, magnetic structure and magnetotransport in few-layer CrI3

classification ❄️ cond-mat.mtrl-sci physics.comp-ph
keywords correctioncri3fieldaroundmagneticmeanstructureband
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Using density functional theory combined with a Hubbard model (DFT+U ), the electronic band structure of CrI3 multilayers, both free-standing and enclosed between graphene contacts, is calculated. We show that the DFT+U approach, together with the 'around mean field' correction scheme, is able to describe the vertical magnetotransport in line with the experimental measurements of magnetoresistance in multi-layered CrI3 enclosed between graphene contacts. Moreover, by interpolating between different double-counting correction schemes, namely the 'around mean field' correction and the fully localized limit, we show their importance for describing both the band structure and the ground-state total energy consistently. Our description of the magnetic exchange interaction is compatible with the experimentally observed antiferromagnetic ground state in the bilayer CrI3 and the transition to a ferromagnetic arrangement in a small external magnetic field. Thus, using spin-polarized DFT+U with an 'around mean field' correction, a consistent overall picture is achieved.

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