纳米尺度限制 TbFeCo 中的全光磁开关——与纳米尺度非均匀性的竞争。

Nanoscale Confinement of All-Optical Magnetic Switching in TbFeCo--Competition with Nanoscale Heterogeneity.

机构信息

Stanford Institute for Materials and Energy Sciences, SLAC National Accelerator Laboratory , 2575 Sand Hill Road, Menlo Park, California 94025, United States.

Institute for Molecules and Materials, Radboud University Nijmegen , Heyendaalseweg 135, 6525 AJ Nijmegen, The Netherlands.

出版信息

Nano Lett. 2015 Oct 14;15(10):6862-8. doi: 10.1021/acs.nanolett.5b02743. Epub 2015 Sep 1.

DOI:10.1021/acs.nanolett.5b02743

PMID:26312732

Abstract

Single femtosecond optical laser pulses, of sufficient intensity, are demonstrated to reverse magnetization in a process known as all-optical switching. Gold two-wire antennas are placed on the all-optical switching film TbFeCo. These structures are resonant with the optical field, and they create a field enhancement in the near-field which confines the area where optical switching can occur. The magnetic switching that occurs around and below the antenna is imaged using resonant X-ray holography and magnetic circular dichroism. The results not only show the feasibility of controllable switching with antenna assistance but also demonstrate the highly inhomogeneous nature of the switching process, which is attributed to the process depending on the material's heterogeneity.

摘要

单飞秒光激光脉冲，强度足够大，被证明可以在一个称为全光开关的过程中反转磁化。金双线天线被放置在全光开关薄膜 TbFeCo 上。这些结构与光场共振，并在近场中产生场增强，限制了光学开关发生的区域。使用共振 X 射线全息术和磁圆二色性对天线周围和下方发生的磁开关进行成像。结果不仅表明了通过天线辅助进行可控开关的可行性，还证明了开关过程的高度非均匀性，这归因于该过程取决于材料的非均质性。

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纳米尺度限制 TbFeCo 中的全光磁开关——与纳米尺度非均匀性的竞争。

Nanoscale Confinement of All-Optical Magnetic Switching in TbFeCo--Competition with Nanoscale Heterogeneity.

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