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Experimental observation of current-driven antiskyrmion sliding in stripe domains.

Zhidong HeZhuolin LiZhaohui ChenZhan WangJun ShenShouguo WangCheng SongTongyun ZhaoJianwang CaiShi-Zeng LinYing ZhangBaogen Shen
Published in: Nature materials (2024)
Magnetic skyrmions are promising as next-generation information units. Their antiparticle-the antiskyrmion-has also been discovered in chiral magnets. Here we experimentally demonstrate antiskyrmion sliding in response to a pulsed electric current at room temperature without the requirement of an external magnetic field. This is realized by embedding antiskyrmions in helical stripe domains, which naturally provide one-dimensional straight tracks along which antiskyrmion sliding can be easily launched with low current density and without transverse deflection from the antiskyrmion Hall effect. The higher mobility of the antiskyrmions in the background of helical stripes in contrast to the typical ferromagnetic state is a result of intrinsic material parameters and elastic energy of the stripe domain, thereby smearing out the random pinning potential, as supported by micromagnetic simulations. The demonstration and comprehensive understanding of antiskyrmion movement along naturally straight tracks offers a new perspective for (anti)skyrmion application in spintronics.
Keyphrases
  • room temperature
  • ionic liquid
  • magnetic resonance
  • molecular dynamics
  • magnetic resonance imaging
  • climate change
  • mass spectrometry
  • human health