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Highly Efficient Room-Temperature Nonvolatile Magnetic Switching by Current in FeGaTe Thin Flakes. | LitMetric
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Highly Efficient Room-Temperature Nonvolatile Magnetic Switching by Current in FeGaTe Thin Flakes.

Shaohua Yan Shangjie Tian Yang Fu Fanyu Meng Zhiteng Li Hechang Lei Shouguo Wang Xiao Zhang

Small

State Key Laboratory of Information Photonics and Optical Communications & School of Science, Beijing University of Posts and Telecommunications, Beijing, 100876, China.

Published: June 2024

AI Article Synopsis

  • Tuning magnetic states using electric current is crucial for advanced spintronic devices, as magnetic van der Waals materials are promising for magnetic information storage due to their spin torque efficiency.* -
  • Most known van der Waals ferromagnets have ferromagnetic transition temperatures below room temperature, limiting their practical applications and making room-temperature devices a key goal.* -
  • Researchers achieved effective room-temperature magnetic switching in a single vdW ferromagnet (FeGaTe) with significantly lower current density and power usage compared to traditional devices, enhancing the potential for spintronics and magnetic data storage.*

Article Abstract

Effectively tuning magnetic state by using current is essential for novel spintronic devices. Magnetic van der Waals (vdW) materials have shown superior properties for the applications of magnetic information storage based on the efficient spin torque effect. However, for most of known vdW ferromagnets, the ferromagnetic transition temperatures lower than room temperature strongly impede their applications and the room-temperature vdW spintronic device with low energy consumption is still a long-sought goal. Here, the highly efficient room-temperature nonvolatile magnetic switching is realized by current in a single-material device based on vdW ferromagnet FeGaTe. Moreover, the switching current density and power dissipation are about 300 and 60000 times smaller than conventional spin-orbit-torque devices of magnet/heavy-metal heterostructures. These findings make an important progress on the applications of magnetic vdW materials in the fields of spintronics and magnetic information storage.

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 Source
http://dx.doi.org/10.1002/smll.202311430DOI Listing

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