Design of an optomagnonic crystal: Towards optimal magnon-photon mode matching at the microscale
Jasmin Graf,Sanchar Sharma,Hans Huebl,Silvia Viola Kusminskiy +3 more
- Vol. 3, Iss: 1, pp 013277
TLDR
In this paper, an optomagnonic crystal consisting of a Faraday active magnetic dielectric was proposed, which was periodically patterned at the microscale and supported both photon and magnon modes.Abstract:
The authors propose an optomagnonic crystal consisting of a Faraday-active magnetic dielectric which is periodically patterned at the microscale and supports both photon and magnon modes.read more
Citations
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Advances in Magnetics Roadmap on Spin-Wave Computing
TL;DR: Magnonics addresses the physical properties of spin waves and utilizes them for data processing as mentioned in this paper , and many proof-of-concept prototypes have already been realized in laboratories, such as the one presented in this article.
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Cavity magnonics
TL;DR: Cavity magnonics as mentioned in this paper deals with the interaction of magnons and magnetic materials and confined electromagnetic fields, and is a young field that is gearing up for integration in future quantum technologies.
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Recent progress on optomagnetic coupling and optical manipulation based on cavity-optomagnonics
TL;DR: In this paper , a short review of the recent theoretical and experimental progress in the field of optomagnetic coupling and optical manipulation based on cavity-optomagnonics is presented.
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Polarization Dependent Scattering in Cavity Optomagnonics.
TL;DR: In this article, the polarization dependence of magnon-photon scattering in an optical microcavity is reported and a copolarized scattering due to second-order Cotton-Mouton effect is also observed.
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Light propagation and magnon-photon coupling in optically dispersive magnetic media
TL;DR: In this article , a detailed derivation of the magnon-photon coupling Hamiltonian in dispersive media both for degenerate and non-degenerate optical modes is presented.
References
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Quantum magnonics: The magnon meets the superconducting qubit
Yutaka Tabuchi,Seiichiro Ishino,Atsushi Noguchi,Toyofumi Ishikawa,Rekishu Yamazaki,Koji Usami,Yasunobu Nakamura,Yasunobu Nakamura +7 more
TL;DR: In this paper, the authors applied microwave quantum optics to collective spin excitations in a macroscopic sphere of a ferromagnetic insulator and demonstrated strong coupling between a magnetostatic mode in the sphere and a microwave cavity mode.
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Diamond optomechanical crystals
Michael J. Burek,Justin D. Cohen,Seán M. Meenehan,Nayera El-Sawah,Cleaven Chia,Thibaud Ruelle,Srujan Meesala,Jake Rochman,Haig A. Atikian,Matthew Markham,Daniel J. Twitchen,Mikhail D. Lukin,Oskar Painter,Marko Loncar +13 more
TL;DR: In this article, the authors demonstrate diamond optomechanical crystals (OMCs), a device platform to enable such applications, wherein the co-localization of ∼200 THz photons and few to 10 GHz phonons in a quasi-periodic diamond nanostructure leads to coupling of an optical cavity field to a mechanical mode via radiation pressure.
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Nonlinear optomechanical measurement of mechanical motion
George A. Brawley,Michael R. Vanner,Peter Emil Larsen,Silvan Schmid,Anja Boisen,Warwick P. Bowen +5 more
TL;DR: The observation of displacement-squared thermal motion of a micro-mechanical resonator is reported by exploiting the intrinsic nonlinearity of the radiation-pressure interaction to generate bimodal mechanical states of motion with separations and feature sizes well below 100 pm.
Journal ArticleDOI
Optomechanics in an ultrahigh-Q two-dimensional photonic crystal cavity
TL;DR: In this article, an ultrahigh-Q slotted two-dimensional photonic crystal cavity capable of obtaining strong interaction between the internal light field and the mechanical motion of the slotted structure was demonstrated.
Journal ArticleDOI
Surface Magnetostatic Modes and Surface Spin Waves
J. R. Eshbach,R. W. Damon +1 more
TL;DR: In this paper, the spatial configuration of the magnetostatic modes of a ferromagnetic body was examined and it was shown that those modes whose frequency lies between ε(n ϵ) and ϵ(1 2 ) are surface modes.