Room temperature ferromagnetism and anomalous Hall effect in   Si_{1-x}Mn_x (x = 0.35) alloys

B.A. Aronzon (1,8); V.V. Rylkov (1,9); S.N. Nikolaev (1); V.V.; Tugushev (1); S. Caprara (2); V.V. Podolskii (3); V.P. Lesnikov (3); A.; Lashkul (4); R. Laiho (5); R.R. Gareev (6); N.S. Perov (7); A.S. Semisalova; (7) ((1) Russian Research Centre "Kurchatov Institute"; Moscow; Russia,(2); Dipartimento di Fisica; Universita di Roma "La Sapienza"; Italy; (3); Physicotechnical Research Institute; Nizhnii Novgorod State University,; Russia; (4) Lappeenranta University of Technology; Finland,(5) Wihuri; Physical Lab.; Turku University; Turku; Finland; (6) Institute of; Experimental; Applied Physics; University of Regensburg; Germany,(7); Faculty of physics; M.V. Lomonosov MSU; Russia,(8) Institute of Applied and; Theoretical Electrodynamics; Russian Academy of Sciences; (9) Kotel'nikov; Institute of Radio Engineering; Electronics; Russian Academy of Sciences,; Fryazino)

arXiv:1012.0715·cond-mat.mes-hall·May 20, 2015

Room temperature ferromagnetism and anomalous Hall effect in Si_{1-x}Mn_x (x = 0.35) alloys

B.A. Aronzon (1,8), V.V. Rylkov (1,9), S.N. Nikolaev (1), V.V., Tugushev (1), S. Caprara (2), V.V. Podolskii (3), V.P. Lesnikov (3), A., Lashkul (4), R. Laiho (5), R.R. Gareev (6), N.S. Perov (7), A.S. Semisalova, (7) ((1) Russian Research Centre "Kurchatov Institute", Moscow

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TL;DR

This study demonstrates room temperature ferromagnetism and anomalous Hall effect in Si_{1-x}Mn_x alloys with x=0.35, linking magnetic and transport properties to their conductivity and substrate, supported by a two-phase magnetic model.

Contribution

It introduces a theoretical model explaining high-temperature ferromagnetism in Si-Mn alloys through a two-phase system with molecular clusters and a weak itinerant ferromagnet.

Findings

01

Anomalous Hall effect observed up to room temperature.

02

Long-range ferromagnetic order confirmed by magnetic measurements.

03

Theoretical model aligns with experimental data.

Abstract

A detailed study of the magnetic and transport properties of Si1-xMnx (X = 0.35) films is presented. We observe the anomalous Hall effect (AHE) in these films up to room temperature. The results of the magnetic measurements and the AHE data are consistent and demonstrate the existence of long-range ferromagnetic (FM) order in the systems under study. A correlation of the AHE and the magnetic properties of Si1-xMnx (X = 0.35) films with their conductivity and substrate type is shown. A theoretical model based on the idea of a two-phase magnetic material, in which molecular clusters with localized magnetic moments are embedded in the matrix of a weak itinerant ferromagnet, is discussed. The long-range ferromagnetic order at high temperatures is mainly due to the Stoner enhancement of the exchange coupling between clusters through thermal spin fluctuations ("paramagnons") in the matrix.…

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