Open Access
Spatially inhomogeneous inverse Faraday effect provides tunable nonthermal excitation of exchange dominated spin waves
D.M. Krichevsky
1, 2
,
Vladislav A. Ozerov
1, 2
,
Alexandra V. Bel’kova
1, 3
,
D. A. Sylgacheva
1
,
Andrey N Kalish
1, 3
,
Alexander S. Pakhomov
1, 2, 4
,
Tatiana V. Mikhailova
5
,
Sergey D. Lyashko
5
,
Alexander L. Kudryashov
5
,
Evgeny Yu. Semuk
5
,
Alexander I. Chernov
1, 2
,
Vladimir N Berzhansky
5
,
Vladimir I Belotelov
1, 3, 5
4
New Spintronic Technologies , 121205 , Moscow , Russia
|
5
V.I. Vernadsky Crimean Federal University , 295007 , Simferopol , Russia
|
Publication type: Journal Article
Publication date: 2024-01-19
scimago Q1
wos Q1
SJR: 1.765
CiteScore: 12.1
Impact factor: 6.6
ISSN: 21928606, 21928614
PubMed ID:
39633669
Electronic, Optical and Magnetic Materials
Biotechnology
Atomic and Molecular Physics, and Optics
Electrical and Electronic Engineering
Abstract
We demonstrate optical nonthermal excitation of exchange dominated spin waves of different orders in a magnetophotonic crystal. The magnetophotonic structure consists of a thin magnetic film and a Bragg stack of nonmagnetic layers to provide a proper nonuniform interference pattern of the inverse Faraday effect induced by light in the magnetic layer. We found a phenomenon of the pronounced phase slippage of the inverse Faraday effect distribution when the pump wavelength is within the photonic band gap of the structure. It allows to tune the interference pattern by a slight variation of light wavelength which results in the modification of excitation efficiency of the different order spin waves. The approach can be applied for different magnetic dielectrics expanding their application horizons for spin-wave based devices.
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Metrics
8
Total citations:
8
Citations from 2024:
8
(100%)
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MLA
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GOST
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Krichevsky D. et al. Spatially inhomogeneous inverse Faraday effect provides tunable nonthermal excitation of exchange dominated spin waves // Nanophotonics. 2024. Vol. 13. No. 3. pp. 299-306.
GOST all authors (up to 50)
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Krichevsky D., Ozerov V. A., Bel’kova A. V., Sylgacheva D. A., Kalish A. N., Evstigneeva S. A., Pakhomov A. S., Mikhailova T. V., Lyashko S. D., Kudryashov A. L., Semuk E. Y., Chernov A. I., Berzhansky V. N., Belotelov V. I. Spatially inhomogeneous inverse Faraday effect provides tunable nonthermal excitation of exchange dominated spin waves // Nanophotonics. 2024. Vol. 13. No. 3. pp. 299-306.
Cite this
RIS
Copy
TY - JOUR
DO - 10.1515/nanoph-2023-0626
UR - https://doi.org/10.1515/nanoph-2023-0626
TI - Spatially inhomogeneous inverse Faraday effect provides tunable nonthermal excitation of exchange dominated spin waves
T2 - Nanophotonics
AU - Krichevsky, D.M.
AU - Ozerov, Vladislav A.
AU - Bel’kova, Alexandra V.
AU - Sylgacheva, D. A.
AU - Kalish, Andrey N
AU - Evstigneeva, Svetlana A
AU - Pakhomov, Alexander S.
AU - Mikhailova, Tatiana V.
AU - Lyashko, Sergey D.
AU - Kudryashov, Alexander L.
AU - Semuk, Evgeny Yu.
AU - Chernov, Alexander I.
AU - Berzhansky, Vladimir N
AU - Belotelov, Vladimir I
PY - 2024
DA - 2024/01/19
PB - Walter de Gruyter
SP - 299-306
IS - 3
VL - 13
PMID - 39633669
SN - 2192-8606
SN - 2192-8614
ER -
Cite this
BibTex (up to 50 authors)
Copy
@article{2024_Krichevsky,
author = {D.M. Krichevsky and Vladislav A. Ozerov and Alexandra V. Bel’kova and D. A. Sylgacheva and Andrey N Kalish and Svetlana A Evstigneeva and Alexander S. Pakhomov and Tatiana V. Mikhailova and Sergey D. Lyashko and Alexander L. Kudryashov and Evgeny Yu. Semuk and Alexander I. Chernov and Vladimir N Berzhansky and Vladimir I Belotelov},
title = {Spatially inhomogeneous inverse Faraday effect provides tunable nonthermal excitation of exchange dominated spin waves},
journal = {Nanophotonics},
year = {2024},
volume = {13},
publisher = {Walter de Gruyter},
month = {jan},
url = {https://doi.org/10.1515/nanoph-2023-0626},
number = {3},
pages = {299--306},
doi = {10.1515/nanoph-2023-0626}
}
Cite this
MLA
Copy
Krichevsky, D.M., et al. “Spatially inhomogeneous inverse Faraday effect provides tunable nonthermal excitation of exchange dominated spin waves.” Nanophotonics, vol. 13, no. 3, Jan. 2024, pp. 299-306. https://doi.org/10.1515/nanoph-2023-0626.