Electrically Controlled Spin Injection from Giant Rashba Spin–Orbit Conductor BiTeBr

[Image: see text] Ferromagnetic materials are the widely used source of spin-polarized electrons in spintronic devices, which are controlled by external magnetic fields or spin-transfer torque methods. However, with increasing demand for smaller and faster spintronic components utilization of spin–o...

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Autores principales: Kovács-Krausz, Zoltán, Hoque, Anamul Md, Makk, Péter, Szentpéteri, Bálint, Kocsis, Mátyás, Fülöp, Bálint, Yakushev, Michael Vasilievich, Kuznetsova, Tatyana Vladimirovna, Tereshchenko, Oleg Evgenevich, Kokh, Konstantin Aleksandrovich, Lukács, István Endre, Taniguchi, Takashi, Watanabe, Kenji, Dash, Saroj Prasad, Csonka, Szabolcs
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2020
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7660945/
https://www.ncbi.nlm.nih.gov/pubmed/32511931
http://dx.doi.org/10.1021/acs.nanolett.0c00458
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author Kovács-Krausz, Zoltán
Hoque, Anamul Md
Makk, Péter
Szentpéteri, Bálint
Kocsis, Mátyás
Fülöp, Bálint
Yakushev, Michael Vasilievich
Kuznetsova, Tatyana Vladimirovna
Tereshchenko, Oleg Evgenevich
Kokh, Konstantin Aleksandrovich
Lukács, István Endre
Taniguchi, Takashi
Watanabe, Kenji
Dash, Saroj Prasad
Csonka, Szabolcs
author_facet Kovács-Krausz, Zoltán
Hoque, Anamul Md
Makk, Péter
Szentpéteri, Bálint
Kocsis, Mátyás
Fülöp, Bálint
Yakushev, Michael Vasilievich
Kuznetsova, Tatyana Vladimirovna
Tereshchenko, Oleg Evgenevich
Kokh, Konstantin Aleksandrovich
Lukács, István Endre
Taniguchi, Takashi
Watanabe, Kenji
Dash, Saroj Prasad
Csonka, Szabolcs
author_sort Kovács-Krausz, Zoltán
collection PubMed
description [Image: see text] Ferromagnetic materials are the widely used source of spin-polarized electrons in spintronic devices, which are controlled by external magnetic fields or spin-transfer torque methods. However, with increasing demand for smaller and faster spintronic components utilization of spin–orbit phenomena provides promising alternatives. New materials with unique spin textures are highly desirable since all-electric creation and control of spin polarization is expected where the strength, as well as an arbitrary orientation of the polarization, can be defined without the use of a magnetic field. In this work, we use a novel spin–orbit crystal BiTeBr for this purpose. Because of its giant Rashba spin splitting, bulk spin polarization is created at room temperature by an electric current. Integrating BiTeBr crystal into graphene-based spin valve devices, we demonstrate for the first time that it acts as a current-controlled spin injector, opening new avenues for future spintronic applications in integrated circuits.
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spelling pubmed-76609452020-11-13 Electrically Controlled Spin Injection from Giant Rashba Spin–Orbit Conductor BiTeBr Kovács-Krausz, Zoltán Hoque, Anamul Md Makk, Péter Szentpéteri, Bálint Kocsis, Mátyás Fülöp, Bálint Yakushev, Michael Vasilievich Kuznetsova, Tatyana Vladimirovna Tereshchenko, Oleg Evgenevich Kokh, Konstantin Aleksandrovich Lukács, István Endre Taniguchi, Takashi Watanabe, Kenji Dash, Saroj Prasad Csonka, Szabolcs Nano Lett [Image: see text] Ferromagnetic materials are the widely used source of spin-polarized electrons in spintronic devices, which are controlled by external magnetic fields or spin-transfer torque methods. However, with increasing demand for smaller and faster spintronic components utilization of spin–orbit phenomena provides promising alternatives. New materials with unique spin textures are highly desirable since all-electric creation and control of spin polarization is expected where the strength, as well as an arbitrary orientation of the polarization, can be defined without the use of a magnetic field. In this work, we use a novel spin–orbit crystal BiTeBr for this purpose. Because of its giant Rashba spin splitting, bulk spin polarization is created at room temperature by an electric current. Integrating BiTeBr crystal into graphene-based spin valve devices, we demonstrate for the first time that it acts as a current-controlled spin injector, opening new avenues for future spintronic applications in integrated circuits. American Chemical Society 2020-06-08 2020-07-08 /pmc/articles/PMC7660945/ /pubmed/32511931 http://dx.doi.org/10.1021/acs.nanolett.0c00458 Text en This is an open access article published under a Creative Commons Attribution (CC-BY) License (http://pubs.acs.org/page/policy/authorchoice_ccby_termsofuse.html) , which permits unrestricted use, distribution and reproduction in any medium, provided the author and source are cited.
spellingShingle Kovács-Krausz, Zoltán
Hoque, Anamul Md
Makk, Péter
Szentpéteri, Bálint
Kocsis, Mátyás
Fülöp, Bálint
Yakushev, Michael Vasilievich
Kuznetsova, Tatyana Vladimirovna
Tereshchenko, Oleg Evgenevich
Kokh, Konstantin Aleksandrovich
Lukács, István Endre
Taniguchi, Takashi
Watanabe, Kenji
Dash, Saroj Prasad
Csonka, Szabolcs
Electrically Controlled Spin Injection from Giant Rashba Spin–Orbit Conductor BiTeBr
title Electrically Controlled Spin Injection from Giant Rashba Spin–Orbit Conductor BiTeBr
title_full Electrically Controlled Spin Injection from Giant Rashba Spin–Orbit Conductor BiTeBr
title_fullStr Electrically Controlled Spin Injection from Giant Rashba Spin–Orbit Conductor BiTeBr
title_full_unstemmed Electrically Controlled Spin Injection from Giant Rashba Spin–Orbit Conductor BiTeBr
title_short Electrically Controlled Spin Injection from Giant Rashba Spin–Orbit Conductor BiTeBr
title_sort electrically controlled spin injection from giant rashba spin–orbit conductor bitebr
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7660945/
https://www.ncbi.nlm.nih.gov/pubmed/32511931
http://dx.doi.org/10.1021/acs.nanolett.0c00458
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