Journal article
D. Ignatyeva, D. Krichevsky, V. Belotelov, F. Royer, Sushree Dash, M. Levy
Journal of Applied Physics, 2022
Journal of Applied Physics, 2022
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APA
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Ignatyeva, D., Krichevsky, D., Belotelov, V., Royer, F., Dash, S., & Levy, M. (2022). All-dielectric magneto-photonic metasurfaces. Journal of Applied Physics.
Chicago/Turabian
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Ignatyeva, D., D. Krichevsky, V. Belotelov, F. Royer, Sushree Dash, and M. Levy. “All-Dielectric Magneto-Photonic Metasurfaces.” Journal of Applied Physics (2022).
MLA
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Ignatyeva, D., et al. “All-Dielectric Magneto-Photonic Metasurfaces.” Journal of Applied Physics, 2022.
BibTeX Click to copy
@article{d2022a,
title = {All-dielectric magneto-photonic metasurfaces},
year = {2022},
journal = {Journal of Applied Physics},
author = {Ignatyeva, D. and Krichevsky, D. and Belotelov, V. and Royer, F. and Dash, Sushree and Levy, M.}
}
Abstract
All-dielectric metasurfaces have been attracting much attention. Low optical losses and a huge variety of optical modes provide unique possibilities for light manipulation at the nanoscale. Recent studies showed that the magneto-optical effects in such metasurfaces are enormously enhanced. Moreover, it is possible to observe novel magneto-optical effects that are absent in smooth films. Excitation of particular photonic resonances makes it possible to design the magneto-optical interaction by the metasurface design. This opens up broad opportunities for magneto-photonic metasurface applications, including optomagnetism, light modulation, sensing, magnetometry, etc.
