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Electric-Field-Controlled Antiferromagnetic Spintronic Devices. | LitMetric

AI Article Synopsis

  • - Recent advancements in antiferromagnetic spintronics highlight the potential of electric-field control to create energy-efficient devices by reducing Joule heating.
  • - The review covers various modern research topics, including Néel spin-orbit torque, chiral spintronics, and memory devices, focusing on their implications for antiferromagnetic materials.
  • - The study emphasizes the future prospects of developing room-temperature antiferromagnetic junctions and innovative spinlogic devices, aiming to accelerate growth in this field.

Article Abstract

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.

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Source
http://dx.doi.org/10.1002/adma.201905603DOI Listing

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