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Half-metallic spin polarized electron states in the chimney-ladder higher manganese silicides MnSi 1−x (x = 1.75 − 1.73) with silicon vacancies

S. Caprara (), E. Kulatov and V.V. Tugushev

The European Physical Journal B: Condensed Matter and Complex Systems, 2012, vol. 85, issue 5, 1-12

Abstract: The electronic and optical properties of the higher manganese silicides, known as the Nowotny “chimney-ladder” phases, are investigated by means of first-principles density-functional calculations and compared with the experimental results. According to our calculations, Mn 4 Si 7 is an intrinsic semiconductor and a nonmagnetic material, while Mn 11 Si 19 and Mn 15 Si 26 are metals and half-metallic weak ferromagnets, in agreement with recent experimental findings. The role of intrinsic lattice defects, namely vacancies, common for such open crystal structures, is clarified. The vacancies in Mn 4 Si 7 lead to a metallization of the electronic spectrum and to a magnetic state of half-metallic nature. In Mn 11 Si 19 and Mn 15 Si 26 an effect of vacancies is that the average magnetic moment per Mn atom is almost four times larger than that in stoichiometric higher manganese silicides. The origin of this magnetic moment enhancement is explained by the variation of the Mn coordination numbers. The calculated optical spectra are in good agreement with available experimental data. We find a relatively high (1.2°) polar magneto-optical Kerr effect in Mn 11 Si 19 and Mn 15 Si 26 in the infrared region 0.1−0.3 eV. It is shown that such magneto-optical peaks are formed by the low energy plasmons. Copyright EDP Sciences, SIF, Springer-Verlag Berlin Heidelberg 2012

Keywords: Solid State and Materials (search for similar items in EconPapers)
Date: 2012
References: View complete reference list from CitEc
Citations: View citations in EconPapers (1)

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DOI: 10.1140/epjb/e2012-30034-2

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