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Main Authors: Safeer, C. K., Keatley, Paul S., Skowroński, Witold, Mojsiejuk, Jakub, Yakushiji, Kay, Fukushima, Akio, Yuasa, Shinji, Bedau, Daniel, Casanova, Fèlix, Hueso, Luis E., Hicken, Robert J., Pinna, Daniele, van der Laan, Gerrit, Hesjedal, Thorsten
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.05537
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author Safeer, C. K.
Keatley, Paul S.
Skowroński, Witold
Mojsiejuk, Jakub
Yakushiji, Kay
Fukushima, Akio
Yuasa, Shinji
Bedau, Daniel
Casanova, Fèlix
Hueso, Luis E.
Hicken, Robert J.
Pinna, Daniele
van der Laan, Gerrit
Hesjedal, Thorsten
author_facet Safeer, C. K.
Keatley, Paul S.
Skowroński, Witold
Mojsiejuk, Jakub
Yakushiji, Kay
Fukushima, Akio
Yuasa, Shinji
Bedau, Daniel
Casanova, Fèlix
Hueso, Luis E.
Hicken, Robert J.
Pinna, Daniele
van der Laan, Gerrit
Hesjedal, Thorsten
contents Understanding the high-frequency transport characteristics of magnetic tunnel junctions (MTJs) is crucial for the development of fast-operating spintronics memories and radio frequency devices. Here, we present the study of frequency-dependent capacitive current effect in CoFeB/MgO-based MTJs and its influence on magnetization dynamics using time-resolved magneto-optical Kerr effect technique. In our device operating at gigahertz frequencies, we find a large displacement current of the order of mA's, which does not break the tunnel barrier of the MTJ. Importantly, this current generates an Oersted field and spin-orbit torque, inducing magnetization dynamics. Our discovery holds promise for building robust MTJ devices operating under high current conditions, also highlighting the significance of capacitive impedance in high frequency magnetotransport techniques.
format Preprint
id arxiv_https___arxiv_org_abs_2405_05537
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Magnetization dynamics driven by displacement currents across a magnetic tunnel junction
Safeer, C. K.
Keatley, Paul S.
Skowroński, Witold
Mojsiejuk, Jakub
Yakushiji, Kay
Fukushima, Akio
Yuasa, Shinji
Bedau, Daniel
Casanova, Fèlix
Hueso, Luis E.
Hicken, Robert J.
Pinna, Daniele
van der Laan, Gerrit
Hesjedal, Thorsten
Mesoscale and Nanoscale Physics
Understanding the high-frequency transport characteristics of magnetic tunnel junctions (MTJs) is crucial for the development of fast-operating spintronics memories and radio frequency devices. Here, we present the study of frequency-dependent capacitive current effect in CoFeB/MgO-based MTJs and its influence on magnetization dynamics using time-resolved magneto-optical Kerr effect technique. In our device operating at gigahertz frequencies, we find a large displacement current of the order of mA's, which does not break the tunnel barrier of the MTJ. Importantly, this current generates an Oersted field and spin-orbit torque, inducing magnetization dynamics. Our discovery holds promise for building robust MTJ devices operating under high current conditions, also highlighting the significance of capacitive impedance in high frequency magnetotransport techniques.
title Magnetization dynamics driven by displacement currents across a magnetic tunnel junction
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2405.05537