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Electric-Field-Controlled Antiferromagnetic Spintronic Devices.
Advanced Materials ( IF 27.4 ) Pub Date : 2020-02-11 , DOI: 10.1002/adma.201905603 Han Yan 1 , Zexin Feng 1 , Peixin Qin 1 , Xiaorong Zhou 1 , Huixin Guo 1 , Xiaoning Wang 1 , Hongyu Chen 1 , Xin Zhang 1 , Haojiang Wu 1 , Chengbao Jiang 1 , Zhiqi Liu 1
Advanced Materials ( IF 27.4 ) Pub Date : 2020-02-11 , DOI: 10.1002/adma.201905603 Han Yan 1 , Zexin Feng 1 , Peixin Qin 1 , Xiaorong Zhou 1 , Huixin Guo 1 , Xiaoning Wang 1 , Hongyu Chen 1 , Xin Zhang 1 , Haojiang Wu 1 , Chengbao Jiang 1 , Zhiqi Liu 1
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In recent years, the field of antiferromagnetic spintronics has been substantially advanced. Electric-field control is a promising approach for achieving ultralow power spintronic devices via suppressing Joule heating. Here, cutting-edge research, including electric-field modulation of antiferromagnetic spintronic devices using strain, ionic liquids, dielectric materials, and electrochemical ionic migration, is comprehensively reviewed. Various emergent topics such as the Néel spin-orbit torque, chiral spintronics, topological antiferromagnetic spintronics, anisotropic magnetoresistance, memory devices, 2D magnetism, and magneto-ionic modulation with respect to antiferromagnets are examined. In conclusion, the possibility of realizing high-quality room-temperature antiferromagnetic tunnel junctions, antiferromagnetic spin logic devices, and artificial antiferromagnetic neurons is highlighted. It is expected that this work provides an appropriate and forward-looking perspective that will promote the rapid development of this field.
中文翻译:
电场控制反铁磁自旋电子器件。
近年来,反铁磁自旋电子学领域已得到很大发展。电场控制是一种通过抑制焦耳热来实现超低功率自旋电子器件的有前途的方法。在此,对包括使用应变,离子液体,介电材料和电化学离子迁移的反铁磁自旋电子器件的电场调制等前沿研究进行了全面综述。研究了各种新兴主题,例如Néel自旋轨道转矩,手性自旋电子学,拓扑反铁磁自旋电子学,各向异性磁阻,存储设备,2D磁性和关于反铁磁体的磁离子调制。总之,有可能实现高质量的室温反铁磁隧道结,反铁磁自旋逻辑器件,并强调了人工反铁磁神经元。预期这项工作将提供适当且具有前瞻性的观点,以促进该领域的快速发展。
更新日期:2020-03-24
中文翻译:
电场控制反铁磁自旋电子器件。
近年来,反铁磁自旋电子学领域已得到很大发展。电场控制是一种通过抑制焦耳热来实现超低功率自旋电子器件的有前途的方法。在此,对包括使用应变,离子液体,介电材料和电化学离子迁移的反铁磁自旋电子器件的电场调制等前沿研究进行了全面综述。研究了各种新兴主题,例如Néel自旋轨道转矩,手性自旋电子学,拓扑反铁磁自旋电子学,各向异性磁阻,存储设备,2D磁性和关于反铁磁体的磁离子调制。总之,有可能实现高质量的室温反铁磁隧道结,反铁磁自旋逻辑器件,并强调了人工反铁磁神经元。预期这项工作将提供适当且具有前瞻性的观点,以促进该领域的快速发展。
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