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Literature DB >> 27588878

Antiferromagnetic Domain Wall Motion Driven by Spin-Orbit Torques.

Takayuki Shiino¹, Se-Hyeok Oh², Paul M Haney³, Seo-Won Lee⁴, Gyungchoon Go⁴, Byong-Guk Park¹, Kyung-Jin Lee^2,4,5.

Abstract

We theoretically investigate the dynamics of antiferromagnetic domain walls driven by spin-orbit torques in antiferromagnet-heavy-metal bilayers. We show that spin-orbit torques drive antiferromagnetic domain walls much faster than ferromagnetic domain walls. As the domain wall velocity approaches the maximum spin-wave group velocity, the domain wall undergoes Lorentz contraction and emits spin waves in the terahertz frequency range. The interplay between spin-orbit torques and the relativistic dynamics of antiferromagnetic domain walls leads to the efficient manipulation of antiferromagnetic spin textures and paves the way for the generation of high frequency signals from antiferromagnets.

Entities: Chemical Disease Gene Species

Year: 2016 PMID： 27588878 PMCID： PMC5101838 DOI： 10.1103/PhysRevLett.117.087203

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

27 in total

1. Current-induced torques due to compensated antiferromagnets.

Authors: Paul M Haney; A H MacDonald
Journal: Phys Rev Lett Date: 2008-05-12 Impact factor: 9.161

2. Phenomenology of current-induced dynamics in antiferromagnets.

Authors: Kjetil M D Hals; Yaroslav Tserkovnyak; Arne Brataas
Journal: Phys Rev Lett Date: 2011-03-10 Impact factor: 9.161

3. Antiferromagnetic metal spintronics.

Authors: A H MacDonald; M Tsoi
Journal: Philos Trans A Math Phys Eng Sci Date: 2011-08-13 Impact factor: 4.226

4. Relativistic Néel-order fields induced by electrical current in antiferromagnets.

Authors: J Železný; H Gao; K Výborný; J Zemen; J Mašek; Aurélien Manchon; J Wunderlich; Jairo Sinova; T Jungwirth
Journal: Phys Rev Lett Date: 2014-10-06 Impact factor: 9.161

5. Domain-wall velocities of up to 750 m s(-1) driven by exchange-coupling torque in synthetic antiferromagnets.

Authors: See-Hun Yang; Kwang-Su Ryu; Stuart Parkin
Journal: Nat Nanotechnol Date: 2015-02-23 Impact factor: 39.213

6. Spin pumping and spin-transfer torques in antiferromagnets.

Authors: Ran Cheng; Jiang Xiao; Qian Niu; Arne Brataas
Journal: Phys Rev Lett Date: 2014-07-29 Impact factor: 9.161

7. Static and Dynamical Properties of Antiferromagnetic Skyrmions in the Presence of Applied Current and Temperature.

Authors: Joseph Barker; Oleg A Tretiakov
Journal: Phys Rev Lett Date: 2016-04-07 Impact factor: 9.161

8. High Antiferromagnetic Domain Wall Velocity Induced by Néel Spin-Orbit Torques.

Authors: O Gomonay; T Jungwirth; J Sinova
Journal: Phys Rev Lett Date: 2016-06-29 Impact factor: 9.161

9. Spin-torque switching with the giant spin Hall effect of tantalum.

Authors: Luqiao Liu; Chi-Feng Pai; Y Li; H W Tseng; D C Ralph; R A Buhrman
Journal: Science Date: 2012-05-04 Impact factor: 47.728

10. Terahertz Antiferromagnetic Spin Hall Nano-Oscillator.

Authors: Ran Cheng; Di Xiao; Arne Brataas
Journal: Phys Rev Lett Date: 2016-05-20 Impact factor: 9.161

12 in total

1. A new spin on special relativity.

Authors: Matthew W Daniels; Mark D Stiles
Journal: Science Date: 2020-12-18 Impact factor: 47.728

2. Fast domain wall motion in the vicinity of the angular momentum compensation temperature of ferrimagnets.

Authors: Kab-Jin Kim; Se Kwon Kim; Yuushou Hirata; Se-Hyeok Oh; Takayuki Tono; Duck-Ho Kim; Takaya Okuno; Woo Seung Ham; Sanghoon Kim; Gyoungchoon Go; Yaroslav Tserkovnyak; Arata Tsukamoto; Takahiro Moriyama; Kyung-Jin Lee; Teruo Ono
Journal: Nat Mater Date: 2017-09-25 Impact factor: 43.841

3. Synthetic Antiferromagnetic Spintronics.

Authors: R A Duine; Kyung-Jin Lee; Stuart S P Parkin; M D Stiles
Journal: Nat Phys Date: 2018-03-02 Impact factor: 20.034

4. Anomalous Hall-like effect probe of antiferromagnetic domain wall.

Authors: Lili Lang; Xuepeng Qiu; Shiming Zhou
Journal: Sci Rep Date: 2018-01-10 Impact factor: 4.379

5. Spin-orbit torques associated with ferrimagnetic order in Pt/GdFeCo/MgO layers.

Authors: JongHyuk Kim; DongJoon Lee; Kyung-Jin Lee; Byeong-Kwon Ju; Hyun Cheol Koo; Byoung-Chul Min; OukJae Lee
Journal: Sci Rep Date: 2018-04-16 Impact factor: 4.379

6. Butterfly-shaped magnetoresistance in triangular-lattice antiferromagnet Ag₂CrO₂.

Authors: Hiroki Taniguchi; Mori Watanabe; Masashi Tokuda; Shota Suzuki; Eria Imada; Takashi Ibe; Tomonori Arakawa; Hiroyuki Yoshida; Hiroaki Ishizuka; Kensuke Kobayashi; Yasuhiro Niimi
Journal: Sci Rep Date: 2020-02-13 Impact factor: 4.379

7. Reversible hydrogen control of antiferromagnetic anisotropy in α-Fe₂O₃.

Authors: Hariom Jani; Jiajun Linghu; Sonu Hooda; Rajesh V Chopdekar; Changjian Li; Ganesh Ji Omar; Saurav Prakash; Yonghua Du; Ping Yang; Agnieszka Banas; Krzysztof Banas; Siddhartha Ghosh; Sunil Ojha; G R Umapathy; Dinakar Kanjilal; A Ariando; Stephen J Pennycook; Elke Arenholz; Paolo G Radaelli; J M D Coey; Yuan Ping Feng; T Venkatesan
Journal: Nat Commun Date: 2021-03-12 Impact factor: 14.919