A fully compensated ferrimagnetic half metal Co1−xCrxS2 with Curie temperature above room temperature

Fully compensated ferrimagnetic half metals have attracted great attention in spintronics. Unlike many previous calculations based on hypothetical ordered alloys, here we look for existing solid solution series taking as an example Co1−xCrxS2. Calculations find that a low-spin state for Cr that matc...

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Veröffentlicht in:	Journal of applied physics 2023-04, Vol.133 (14)
Hauptverfasser:	He, Yangkun, Coey, J. M. D., Gercsi, Zsolt
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Sprache:	eng
Schlagworte:	Applied physics Chromium Curie temperature Intermetallic compounds Mathematical analysis Room temperature Solid solutions Spintronics
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creator	He, Yangkun Coey, J. M. D. Gercsi, Zsolt
description	Fully compensated ferrimagnetic half metals have attracted great attention in spintronics. Unlike many previous calculations based on hypothetical ordered alloys, here we look for existing solid solution series taking as an example Co1−xCrxS2. Calculations find that a low-spin state for Cr that matches early experiments and a fully compensated ferrimagnetic half metal with Curie temperature above room temperature is found at x ≈ 0.33. Our study demonstrates the method of combining two half metals with light and heavy 3d metals in a solid solution to achieve compensation, where atomic disorder does not destroy the desired properties.
doi_str_mv	10.1063/5.0145950
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subjects	Applied physics Chromium Curie temperature Intermetallic compounds Mathematical analysis Room temperature Solid solutions Spintronics
title	A fully compensated ferrimagnetic half metal Co1−xCrxS2 with Curie temperature above room temperature
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