Non-local effect of impurity states on the exchange coupling mechanism in magnetic topological insulators-Reference-Cited by-同舟云学术

Non-local effect of impurity states on the exchange coupling mechanism in magnetic topological insulators

Published:2020-11-19 Issue:1 Volume:5 Page:
ISSN:2397-4648
Container-title:npj Quantum Materials
language:en
Short-container-title:npj Quantum Mater.

Author:

Peixoto Thiago R. F.^ORCID,Bentmann Hendrik,Rüßmann Philipp^ORCID,Tcakaev Abdul-Vakhab^ORCID,Winnerlein Martin,Schreyeck Steffen,Schatz Sonja,Vidal Raphael Crespo,Stier Fabian^ORCID,Zabolotnyy Volodymyr,Green Robert J.,Min Chul Hee,Fornari Celso I.,Maaß Henriette,Vasili Hari Babu,Gargiani Pierluigi,Valvidares Manuel^ORCID,Barla Alessandro^ORCID,Buck Jens,Hoesch Moritz^ORCID,Diekmann Florian,Rohlf Sebastian,Kalläne Matthias,Rossnagel Kai^ORCID,Gould Charles,Brunner Karl,Blügel Stefan,Hinkov Vladimir^ORCID,Molenkamp Laurens W.,Reinert Friedrich

Abstract

AbstractSince the discovery of the quantum anomalous Hall (QAH) effect in the magnetically doped topological insulators (MTI) Cr:(Bi,Sb)2Te3 and V:(Bi,Sb)2Te3, the search for the magnetic coupling mechanisms underlying the onset of ferromagnetism has been a central issue, and a variety of different scenarios have been put forward. By combining resonant photoemission, X-ray magnetic circular dichroism and density functional theory, we determine the local electronic and magnetic configurations of V and Cr impurities in (Bi,Sb)2Te3. State-of-the-art first-principles calculations find pronounced differences in their 3d densities of states, and show how these impurity states mediate characteristic short-range pd exchange interactions, whose strength sensitively varies with the position of the 3d states relative to the Fermi level. Measurements on films with varying host stoichiometry support this trend. Our results explain, in an unified picture, the origins of the observed magnetic properties, and establish the essential role of impurity-state-mediated exchange interactions in the magnetism of MTI.

Publisher

Springer Science and Business Media LLC

Subject

Condensed Matter Physics,Electronic, Optical and Magnetic Materials

Link

http://www.nature.com/articles/s41535-020-00288-0.pdf

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