Emergence of spin-orbit coupled ferromagnetic surface state derived from Zak phase in a nonmagnetic insulator FeSi

FeSi is a nonmagnetic narrow-gap insulator, exhibiting peculiar charge and spin dynamics beyond a simple band structure picture. Those unusual features have been attracting renewed attention from topological aspects. Although the surface conduction was demonstrated according to size-dependent resist...

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Autores principales: Ohtsuka, Yusuke, Kanazawa, Naoya, Hirayama, Motoaki, Matsui, Akira, Nomoto, Takuya, Arita, Ryotaro, Nakajima, Taro, Hanashima, Takayasu, Ukleev, Victor, Aoki, Hiroyuki, Mogi, Masataka, Fujiwara, Kohei, Tsukazaki, Atsushi, Ichikawa, Masakazu, Kawasaki, Masashi, Tokura, Yoshinori
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Association for the Advancement of Science 2021
Materias:
Physical and Materials Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8598002/
https://www.ncbi.nlm.nih.gov/pubmed/34788092
http://dx.doi.org/10.1126/sciadv.abj0498
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author Ohtsuka, Yusuke
Kanazawa, Naoya
Hirayama, Motoaki
Matsui, Akira
Nomoto, Takuya
Arita, Ryotaro
Nakajima, Taro
Hanashima, Takayasu
Ukleev, Victor
Aoki, Hiroyuki
Mogi, Masataka
Fujiwara, Kohei
Tsukazaki, Atsushi
Ichikawa, Masakazu
Kawasaki, Masashi
Tokura, Yoshinori
author_facet Ohtsuka, Yusuke
Kanazawa, Naoya
Hirayama, Motoaki
Matsui, Akira
Nomoto, Takuya
Arita, Ryotaro
Nakajima, Taro
Hanashima, Takayasu
Ukleev, Victor
Aoki, Hiroyuki
Mogi, Masataka
Fujiwara, Kohei
Tsukazaki, Atsushi
Ichikawa, Masakazu
Kawasaki, Masashi
Tokura, Yoshinori
author_sort Ohtsuka, Yusuke
collection PubMed
description FeSi is a nonmagnetic narrow-gap insulator, exhibiting peculiar charge and spin dynamics beyond a simple band structure picture. Those unusual features have been attracting renewed attention from topological aspects. Although the surface conduction was demonstrated according to size-dependent resistivity in bulk crystals, its topological characteristics and consequent electromagnetic responses remain elusive. Here, we demonstrate an inherent surface ferromagnetic-metal state of FeSi thin films and its strong spin-orbit coupling (SOC) properties through multiple characterizations of two-dimensional conductance, magnetization, and spintronic functionality. Terminated covalent bonding orbitals constitute the polar surface state with momentum-dependent spin textures due to Rashba-type spin splitting, as corroborated by unidirectional magnetoresistance measurements and first-principles calculations. As a consequence of the spin-momentum locking, nonequilibrium spin accumulation causes magnetization switching. These surface properties are closely related to the Zak phase of the bulk band topology. Our findings propose another route to explore noble metal–free materials for SOC-based spin manipulation.
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spelling pubmed-85980022021-11-29 Emergence of spin-orbit coupled ferromagnetic surface state derived from Zak phase in a nonmagnetic insulator FeSi Ohtsuka, Yusuke Kanazawa, Naoya Hirayama, Motoaki Matsui, Akira Nomoto, Takuya Arita, Ryotaro Nakajima, Taro Hanashima, Takayasu Ukleev, Victor Aoki, Hiroyuki Mogi, Masataka Fujiwara, Kohei Tsukazaki, Atsushi Ichikawa, Masakazu Kawasaki, Masashi Tokura, Yoshinori Sci Adv Physical and Materials Sciences FeSi is a nonmagnetic narrow-gap insulator, exhibiting peculiar charge and spin dynamics beyond a simple band structure picture. Those unusual features have been attracting renewed attention from topological aspects. Although the surface conduction was demonstrated according to size-dependent resistivity in bulk crystals, its topological characteristics and consequent electromagnetic responses remain elusive. Here, we demonstrate an inherent surface ferromagnetic-metal state of FeSi thin films and its strong spin-orbit coupling (SOC) properties through multiple characterizations of two-dimensional conductance, magnetization, and spintronic functionality. Terminated covalent bonding orbitals constitute the polar surface state with momentum-dependent spin textures due to Rashba-type spin splitting, as corroborated by unidirectional magnetoresistance measurements and first-principles calculations. As a consequence of the spin-momentum locking, nonequilibrium spin accumulation causes magnetization switching. These surface properties are closely related to the Zak phase of the bulk band topology. Our findings propose another route to explore noble metal–free materials for SOC-based spin manipulation. American Association for the Advancement of Science 2021-11-17 /pmc/articles/PMC8598002/ /pubmed/34788092 http://dx.doi.org/10.1126/sciadv.abj0498 Text en Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC). https://creativecommons.org/licenses/by-nc/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial license (https://creativecommons.org/licenses/by-nc/4.0/) , which permits use, distribution, and reproduction in any medium, so long as the resultant use is not for commercial advantage and provided the original work is properly cited.
spellingShingle Physical and Materials Sciences
Ohtsuka, Yusuke
Kanazawa, Naoya
Hirayama, Motoaki
Matsui, Akira
Nomoto, Takuya
Arita, Ryotaro
Nakajima, Taro
Hanashima, Takayasu
Ukleev, Victor
Aoki, Hiroyuki
Mogi, Masataka
Fujiwara, Kohei
Tsukazaki, Atsushi
Ichikawa, Masakazu
Kawasaki, Masashi
Tokura, Yoshinori
Emergence of spin-orbit coupled ferromagnetic surface state derived from Zak phase in a nonmagnetic insulator FeSi
title Emergence of spin-orbit coupled ferromagnetic surface state derived from Zak phase in a nonmagnetic insulator FeSi
title_full Emergence of spin-orbit coupled ferromagnetic surface state derived from Zak phase in a nonmagnetic insulator FeSi
title_fullStr Emergence of spin-orbit coupled ferromagnetic surface state derived from Zak phase in a nonmagnetic insulator FeSi
title_full_unstemmed Emergence of spin-orbit coupled ferromagnetic surface state derived from Zak phase in a nonmagnetic insulator FeSi
title_short Emergence of spin-orbit coupled ferromagnetic surface state derived from Zak phase in a nonmagnetic insulator FeSi
title_sort emergence of spin-orbit coupled ferromagnetic surface state derived from zak phase in a nonmagnetic insulator fesi
topic Physical and Materials Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8598002/
https://www.ncbi.nlm.nih.gov/pubmed/34788092
http://dx.doi.org/10.1126/sciadv.abj0498
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