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Sub-picosecond Magnetization Reversal in Rare-earth-free Spin Valves

雷速体育_中国足彩网¥在线直播ers at the Université de Lorraine in France and Tohoku University in Japan have demonstrated a sub-picosecond magnetization reversal in rare-earth-free archetypical spin valves. Their discovery was published in the journal Nature Materials on March 9, 2023.

Manipulating magnetic materials without using magnetic fields is of paramount importance for many applications, such as non-volatile memory. Two decades ago, it was discovered that a magnetization reversal could be induced by a charge current. A decade later, a much faster, sub-picosecond control of the magnetization was achieved by shining femtosecond light pulses. This process became known as all-optical magnetization switching. However, only a few specific rare-earth-based material systems containing antiparallel alignment in magnetic sub-lattices experience such ultrafast phenomena.

In their work, the research group demonstrated sub-picosecond optical control of magnetization in rare-earth-free archetypical spintronic structures, consisting of [Pt/Co]/Cu/[Co/Pt], at ultrafast timescales.

A: Sample stack of a spin valve consisting of the reference layer (bottom, red layer), a Cu spacer (middle, yellow layer) and the free layer (top, blue layer). Values in parentheses are the layer thicknesses in nanometres. B: Magnetization dynamics of the free layer in the studied spin valve. ?Junta Igarashi and Stéphane Mangin

Furthermore, they observed magnetization reversal from parallel alignment, which was previously unseen and unexpected in ultrafast magnetism. Like the discovery of magnetization reversal by a charge current two decades ago, this breakthrough has the potential to drastically extend the bandwidth of common spintronic devices. This can be done by exploiting common spintronics phenomena in a strongly out-of-equilibrium context.

"Our findings provide a route for ultrafast magnetization control by bridging concepts from spintronics and ultrafast magnetism," says Dr. Junta Igarashi of the Université de Lorraine (JSPS Overseas 雷速体育_中国足彩网¥在线直播 Fellowships, an alumnus of Tohoku University) and first author of the paper. Professor Stéphane Mangin of the Université de Lorraine, also serving as a visiting professor at the Center for Science and Innovation in Spintronics (CSIS), Tohoku University, added, "Our findings are a milestone in the development of ultra-fast spintronics and could open the way to new applications for ultra-fast and energy efficient memories."

The partnership between the Université de Lorraine and Tohoku University is driven, in large part, by the exchanges of graduate and post-doc students. More than a dozen exchanges on both sides have already taken place in recent months. This partnership was supported by Presidents Hideo Ohno and Pierre Mutzenhardt, who signed a consortium agreement in 2019 during the World Materials Forum, by Lorraine University of excellence and by the sakura science exchange program and JSPS.

Publication Details:

Title: Optically-induced ultrafast magnetization switching in ferromagnetic spin valves
Authors: Junta Igarashi, Wei Zhang, Quentin Remy, Eva Díaz, Jun-Xiao Lin, Julius Hohlfeld, Michel Hehn, Stéphane Mangin, Jon Gorchon, and Grégory Malinowski
Journal: Nature Materials
DOI: 10.1038/s41563-023-01499-z

雷速体育_中国足彩网¥在线直播:

Shunsuke Fukami
Center for Science and Innovation in Spintronics
Email: s-fukamitohoku.ac.jp
Website: https://spin.ijl.cnrs.fr/

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