Л. Н. Котов scite author profile

Transverse-electric (TE) surface plasmons (SPs) are very unusual for plasmonics phenomenon. Graphene proposes a unique possibility to observe these plasmons. Due to transverse motion of carriers, TE SPs speed is usually close to bulk light one. In this work we discuss conditions of TE SPs propagation in cylindrical graphene-based waveguides. We found that the negativity of graphene conductivity’s imaginary part is not a sufficient condition. The structure supports TE SPs when the core radius of waveguide is larger than the critical value Rcr. Critical radius depends on the light frequency and the difference of permittivities inside and outside the waveguide. Minimum value of Rcr is comparable with the wavelength of volume wave and corresponds to interband carriers transition in graphene. We predict that use of multilayer graphene will lead to decrease of critical radius. TE SPs speed may differ more significantly from bulk light one in case of epsilon-near-zero core and shell of the waveguide. Results may open the door for practical applications of TE SPs in optics, including telecommunications.

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Magnetization switching in bistable nanomagnets by picosecond pulses of surface acoustic waves

Vlasov

Lomonosov

Golov

et al. 2020

Phys. Rev. B

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Conducting and reflecting properties of thin metal films

et al. 2004

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Generation of exchange magnons in thin ferromagnetic films by ultrashort acoustic pulses

Besse

Golov

Vlasov

et al. 2020

Journal of Magnetism and Magnetic Materials

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We investigate generation of exchange magnons by ultrashort, picosecond acoustic pulses propagating through ferromagnetic thin films. Using the Landau-Lifshitz-Gilbert equations we derive the dispersion relation for exchange magnons for an external magnetic field tilted with respect to the film normal. Decomposing the solution in a series of standing spin wave modes, we derive a system of ordinary differential equations and driven harmonic oscillator equations describing the dynamics of individual magnon mode. The external magnetoelastic driving force is given by the time-dependent spatial Fourier components of acoustic strain pulses inside the layer. Dependencies of the magnon excitation efficiencies on the duration of the acoustic pulses and the external magnetic field highlight the role of acoustic bandwidth and phonon-magnon phase matching. Our simulations for ferromagnetic nickel evidence the possibility of ultrafast magneto-acoustic excitation of exchange magnons within the bandwidth of acoustic pulses in thin samples under conditions readily obtained in femtosecond pump-probe experiments.

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Nanostructure and conductivity of thin metal films

et al. 2004

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Nonlinear excitation of hypersound in a ferrite plate under the ferromagnetic-resonance conditions

Vlasov¹,

Котов²,

Шавров³

et al. 2009

J. Commun. Technol. Electron.

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Forced nonlinear precession of the magnetization vector under the conditions of an orientation transition

Vlasov¹,

Котов²,

Шавров³

et al. 2011

J. Commun. Technol. Electron.

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Л. Н. Котов

The 2022 magneto-optics roadmap

Transverse-electric plasmonic modes of cylindrical graphene-based waveguide at near-infrared and visible frequencies

Magnetization switching in bistable nanomagnets by picosecond pulses of surface acoustic waves

Conducting and reflecting properties of thin metal films

Generation of exchange magnons in thin ferromagnetic films by ultrashort acoustic pulses

Nanostructure and conductivity of thin metal films

Nonlinear excitation of hypersound in a ferrite plate under the ferromagnetic-resonance conditions

Forced nonlinear precession of the magnetization vector under the conditions of an orientation transition

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