V. M. Parfenyev scite author profile

V. M. Parfenyev

3Publications

92Citation Statements Received

158Citation Statements Given

How they've been cited

100

How they cite others

140

Affiliations

Landau Institute for Theoretical Physics, National Research University Higher School of Economics, Moscow Institute of Physics and Technology

Publications

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Influence of a thin compressible insoluble liquid film on the eddy currents generated by interacting surface waves

Parfenyev

Vergeles

2018

Phys. Rev. Fluids

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Recently the generation of eddy currents by interacting surface waves was observed experimentally. The phenomenon provides the possibility for manipulation of particles which are immersed in the fluid. The analysis shows that the amplitude of the established eddy currents produced by stationary surface waves does not depend on the fluid viscosity in the free surface case. The currents become parametrically larger being inversely proportional to the square root of the fluid viscosity in the case when the fluid surface is covered by an almost incompressible thin liquid (i.e. shear elasticity is zero) film formed by an insoluble agent with negligible internal viscous losses as compared to the dissipation in the fluid bulk. Here we extend the theory for a thin insoluble film with zero shear elasticity and small shear and dilational viscosities on the case of an arbitrary elastic compression modulus. We find both contributions into the Lagrangian motion of passive tracers, which are the advection by the Eulerian vertical vorticity and the Stokes drift. Whereas the Stokes drift contribution preserves its value for the free surface case outside a thin viscous sublayer, the Eulerian vertical vorticity strongly depends on the fluid viscosity at high values of the film compression modulus. The Stokes drift acquires a strong dependence on the fluid viscosity inside the viscous sublayer, however, the change is compensated by an opposite change in the Eulerian vertical vorticity. As a result, the vertical dependence of the intensity of eddy currents is given by a sum of two decaying exponents with both decrements being of the order of the wave number. The decrements are numerically different, so the Eulerian contribution becomes dominant at some depth for the surface film with any compression modulus. *

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Quantum theory of a spaser-based nanolaser

Parfenyev¹,

Vergeles²

2014

Opt. Express

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We present a quantum theory of a spaser-based nanolaser, under the bad-cavity approximation. We find first-and second-order correlation functions g (1) (τ) and g (2) (τ) below and above the generation threshold, and obtain the average number of plasmons in the cavity. The latter is shown to be of the order of unity near the generation threshold, where the spectral line narrows considerably. In this case the coherence is preserved in a state of active atoms in contradiction to the good-cavity lasers, where the coherence is preserved in a state of photons. The damped oscillations in g (2) (τ) above the generation threshold indicate the unusual character of amplitude fluctuations of polarization and population, which become interconnected in this case. Obtained results allow to understand the fundamental principles of operation of nanolasers. 18253-18259 (2011). 18. J. Kim, V.P. Drachev, Z. Jacob, G.V. Naik, A. Boltasseva, E.E. Narimanov, and V.M. Shalaev "Improving the radiative decay rate for dye molecules with hyperbolic metamaterials," Opt. Express 20, 8100-8116 (2012).

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Nonlinear Generation of Vorticity by Surface Waves

et al. 2016

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We demonstrate that waves excited on a fluid surface produce local surface rotation owing to hydrodynamic nonlinearity. We examine theoretically the effect and obtain an explicit formula for the vertical vorticity in terms of the surface elevation. Our theoretical predictions are confirmed by measurements of surface motion in a cell with water where surface waves are excited by vertical and harmonic shaking the cell. The experimental data are in good agreement with the theoretical predictions. We discuss physical consequences of the effect.

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V. M. Parfenyev

Influence of a thin compressible insoluble liquid film on the eddy currents generated by interacting surface waves

Quantum theory of a spaser-based nanolaser

Nonlinear Generation of Vorticity by Surface Waves

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