Publikation: Femtosecond activation of magnetoelectricity
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In magnetoelectric and multiferroic materials, the magnetic degree of freedom can be controlled by electric field, and vice versa. A significant amount of research has been devoted to exploiting this effect for magnetoelectric data storage and manipulation devices driven by d.c. electric fields1,2,3,4. Aiming at ever-faster schemes of magnetoelectric manipulation, a promising alternative approach offers similar control on a femtosecond timescale, relying on laser pulses4,5,6 to control both the charge7,8 and the magnetic9,10 order of solids. Here we photo-induce magnetoelectricity and multiferroicity in CuB2O4 on a sub-picosecond timescale. This process is triggered by the resonant optical generation of the highest-energy magnetic excitations—magnons with wavevectors near the edges of the Brillouin zone. The most striking consequence of the photo-excitation is that the absorption of light becomes non-reciprocal, which means that the material exhibits a different transparency for two opposite directions of propagation of light. The photo-induced magnetoelectricity does not show any decay on the picosecond timescale. Our findings uncover a path for ultrafast manipulations of the intrinsic coupling between charges and spins in multiferroics4, which may reveal unexplored magnetic configurations and unravel new functionalities in terms of femtosecond optical control of magnetism.
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BOSSINI, Davide, Kuniaki KONISHI, Singo TOYODA, Taka-hisa ARIMA, Junji YUMOTO, Makoto KUWATA-GONOKAMI, 2018. Femtosecond activation of magnetoelectricity. In: Nature Physics. Springer Nature. 2018, 14, pp. 370-374. ISSN 1745-2473. eISSN 1745-2481. Available under: doi: 10.1038/s41567-017-0036-1BibTex
@article{Bossini2018Femto-53322,
year={2018},
doi={10.1038/s41567-017-0036-1},
title={Femtosecond activation of magnetoelectricity},
volume={14},
issn={1745-2473},
journal={Nature Physics},
pages={370--374},
author={Bossini, Davide and Konishi, Kuniaki and Toyoda, Singo and Arima, Taka-hisa and Yumoto, Junji and Kuwata-Gonokami, Makoto}
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<dcterms:abstract xml:lang="eng">In magnetoelectric and multiferroic materials, the magnetic degree of freedom can be controlled by electric field, and vice versa. A significant amount of research has been devoted to exploiting this effect for magnetoelectric data storage and manipulation devices driven by d.c. electric fields1,2,3,4. Aiming at ever-faster schemes of magnetoelectric manipulation, a promising alternative approach offers similar control on a femtosecond timescale, relying on laser pulses4,5,6 to control both the charge7,8 and the magnetic9,10 order of solids. Here we photo-induce magnetoelectricity and multiferroicity in CuB2O4 on a sub-picosecond timescale. This process is triggered by the resonant optical generation of the highest-energy magnetic excitations—magnons with wavevectors near the edges of the Brillouin zone. The most striking consequence of the photo-excitation is that the absorption of light becomes non-reciprocal, which means that the material exhibits a different transparency for two opposite directions of propagation of light. The photo-induced magnetoelectricity does not show any decay on the picosecond timescale. Our findings uncover a path for ultrafast manipulations of the intrinsic coupling between charges and spins in multiferroics4, which may reveal unexplored magnetic configurations and unravel new functionalities in terms of femtosecond optical control of magnetism.</dcterms:abstract>
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