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Please use this identifier to cite or link to this item: https://libeldoc.bsuir.by/handle/123456789/50133
Title: Magnetic properties of low-dimensional MAX3 (M=Cr, A=Ge, Si and X=S, Se, Te) systems
Authors: Baranava, M. S.
Stempitsky, V. R.
Keywords: публикации ученых;ab initio calculation;exchange energy;exchange integral;magnetic anisotropy;nanomagnetic
Issue Date: 2022
Publisher: Санкт-Петербургский политехнический университет Петра Великого
Citation: Baranava, M. S. Magnetic properties of low-dimensional MAX3 (M=Cr, A=Ge, Si and X=S, Se, Te) systems / M. S. Baranava, V. R. Stempitsky // Materials Physics and Mechanics. – 2022. – №49(1). – P. 73–84. – DOI : 10.18149/MPM.4912022_5.
Abstract: The article presents the results of a magnetism study in quasi-two-dimensional MAX3 (M=Cr, A=Ge, Si and X=S, Se, Te) systems. We calculated the microscopic magnetic parameters using quantum mechanical methods and showed that MAX3 can have a high spin polarization. The easy magnetization axis lies normal to the layer plane. The main magnetic order of the CrGeSe3, CrGeTe3, CrSiSe3, and CrSiTe3 atomic systems is ferromagnetism. CrGeS3 and CrSiS3 exhibit antiferromagnetism. The low energy stability of the magnetic order is confirmed by the calculated values of the exchange interaction integral (J). We showed that the magnetic order realizes only at low temperatures. A study of the dependences of J and the magnetic anisotropy energy on the structural (distance between magnetic ions, distortion of the octahedral complex) and electronic properties (population and hybridization of atomic and molecular orbitals) has been performed. The dependences indicate three possible mechanisms of the exchange interaction. We have given ways of influencing a specific mechanism for managing exchange interaction.
URI: https://libeldoc.bsuir.by/handle/123456789/50133
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