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Light-induced magnetization reversal of high-anisotropy TbCo alloy films

Magnetization reversal using circularly polarized light provides a new way to control magnetization without any external magnetic field and has the potential to revolutionize magnetic data storage. However, in order to reach ultra-high density data storage, high anisotropy media providing thermal stability are needed. Here, we evidence all-optical magnetization switching for different TbxCo1-x ferrimagnetic alloy composition and demonstrate all-optical switching for films with anisotropy fields reaching 6 T corresponding to anisotropy constants of 3x106 ergs/cm3. Optical magnetization switching is observed only for alloys which compensation temperature can be reached through sample heating.

preprint2012arXivOpen access
Sabine AlebrandMatthias GottwaldMichel HehnDaniel SteilMirko CinchettiDaniel LacourEric E. FullertonMartin AeschlimannStéphane Mangin
cond-mat.mtrl-sci
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Open access9 authors1 topic
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Authors

Sabine AlebrandMatthias GottwaldMichel HehnDaniel SteilMirko CinchettiDaniel LacourEric E. FullertonMartin AeschlimannStéphane Mangin

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