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49 results on '"Kamenets, F F"'

1. On annihilation of the relativistic electron vortex pair in collisionless plasmas

Author

Lezhnin, K. V., Kamenets, F. F., Esirkepov, T. Zh., and Bulanov, S. V.

Subjects
Physics - Plasma Physics
Abstract

In contrast to hydrodynamic vortices, vortices in plasma contain an electric current circulating around the center of the vortex, which generates a magnetic field localized inside. Using computer simulations, we demonstrate that the magnetic field associated with the vortex gives rise to a mechanism of dissipation of the vortex pair in a collisionless plasma, leading to fast annihilation of the magnetic field with its energy transforming into the energy of fast electrons, secondary vortices, and plasma waves. Two major contributors to the energy damping of double vortex system, namely, magnetic field annihilation and secondary vortex formation, are regulated by the size of the vortex with respect to the electron skin depth, which scales with the electron gamma-factor, $\gamma_e$, as $R/d_e \propto \gamma_e^{1/2}$. Magnetic field annihilation appears to be dominant in mildly relativistic vortices, while for the ultrarelativistic case, secondary vortex formation is the main channel for damping of the initial double vortex system., Comment: 6 pages, 4 figures

Published
2017
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2. Explosion of relativistic electron vortices in laser plasmas

Author

Lezhnin, K. V., Kamenets, F. F., Esirkepov, T. Zh., Bulanov, S. V., Gu, Y., Weber, S., and Korn, G.

Subjects
Physics - Plasma Physics
Abstract

The interaction of high intensity laser radiation with underdense plasma may lead to the formation of electron vortices. Though being quasistationary on an electron timescales, these structures tend to expand on a proton timescale due to Coloumb repulsion of ions. Using a simple analytical model of a stationary vortex as initial condition, 2D PIC simulations are performed. A number of effects are observed such as vortex boundary field intensification, multistream instabilities at the vortex boundary, and bending of the vortex boundary with the subsequent transformation into smaller electron vortices.

Published
2016
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3. Laser Ion Acceleration from Mass-Limited Targets with Preplasma

Author

Lezhnin, K. V., Kamenets, F. F., Esirkepov, T. Zh., Bulanov, S. V., Klimo, O., Weber, S., and Korn, G.

Subjects
Physics - Plasma Physics
Abstract

The interaction of high intensity laser radiation with mass-limited target exhibits significant enhancement of the ion acceleration when the target is surrounded by an underdense plasma corona, as seen in numerical simulations. The self-generated quasistatic magnetic field squeezes the corona causing the intensification of a subsequent Coulomb explosion of the target. The electric field intensification at the target edges and plasma resonance effects result in the generation of characteristic density holes and further contributes to the ion acceleration.The interaction of high intensity laser radiation with mass-limited target exhibits significant enhancement of the ion acceleration when the target is surrounded by an underdense plasma corona, as seen in numerical simulations. The self-generated quasistatic magnetic field squeezes the corona causing the intensification of a subsequent Coulomb explosion of the target. The electric field intensification at the target edges and plasma resonance effects result in the generation of characteristic density holes and further contributes to the ion acceleration.

Published
2016
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4. Effect of Electromagnetic Pulse Transverse Inhomogeneity on the Ion Acceleration by Radiation Pressure

Author

Lezhnin, K. V., Kamenets, F. F., Beskin, V. S., Kando, M., Esirkepov, T. Zh., and Bulanov, S. V.

Subjects
Physics - Plasma Physics
Abstract

In the ion acceleration by radiation pressure a transverse inhomogeneity of the electromagnetic pulse results in the displacement of the irradiated target in the off-axis direction limiting achievable ion energy. This effect is described analytically within the framework of the thin foil target model and with the particle-in-cell simulations showing that the maximum energy of accelerated ions decreases while the displacement from the axis of the target initial position increases. The results obtained can be applied for optimization of the ion acceleration by the laser radiation pressure with the mass limited targets., Comment: 9 pages, 7 figures

Published
2014
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5. On the interaction of the electromagnetic radiation with the breaking plasma waves

Author

Panchenko, A. V., Esirkepov, T. Zh., Pirozhkov, A. S., Kando, M., Kamenets, F. F., and Bulanov, S. V.

Subjects
Physics - Plasma Physics, Physics - Fluid Dynamics, Physics - General Physics
Abstract

An electromagnetic wave (EMW) interacting with the moving singularity of the charged particle flux undergoes the reflection and absorption as well as frequency change due to Doppler effect and nonlinearity. The singularity corresponding to a caustic in plasma flow with inhomogeneous velocity can arise during the breaking of the finite amplitude Langmuir waves due to nonlinear effects. A systematic analysis of the wave-breaking regimes and caustics formation is presented and the EMW reflection coefficients are calculated., Comment: 13 pages, 5 figures, two appendices

Published
2008

6. Single-Cycle High-Intensity Electromagnetic Pulse Generation in the Interaction of a Plasma Wakefield with Nonlinear Coherent Structures

Author

Bulanov, S. S., Esirkepov, T. Zh., Kamenets, F. F., and Pegoraro, F.

Subjects
Physics - Plasma Physics, Physics - Computational Physics, Physics - Fluid Dynamics
Abstract

The interaction of coherent nonlinear structures (such as sub-cycle solitons, electron vortices and wake Langmuir waves) with a strong wake wave in a collisionless plasma can be exploited in order to produce ultra-short electromagnetic pulses. The electromagnetic field of a coherent nonlinear structure is partially reflected by the electron density modulations of the incident wake wave and a single-cycle high-intensity electromagnetic pulse is formed. Due to the Doppler effect the length of this pulse is much shorter than that of the coherent nonlinear structure. This process is illustrated with two-dimensional Particle-in-Cell simulations. The considered laser-plasma interaction regimes can be achieved in present day experiments and can be used for plasma diagnostics., Comment: 11 pages, 11 figures. Submitted to Phys. Rev. E

Published
2005
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7. Relativistic Interaction of Laser Pulses with Plasmas

Author

Bulanov, S. V., Califano, F., Dudnikova, G. I., Esirkepov, T. Zh., Inovenkov, I. N., Kamenets, F. F., Liseikina, T. V., Lontano, M., Mima, K., Naumova, N. M., Nishihara, K., Pegoraro, F., Ruhl, H., Sakharov, A. S., Sentoku, Y., Vshivkov, V. A., Zhakhovskii, V. V., and Shafranov, V. D., editor

Published
2001
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8. Experimental studies of the high and low frequency electromagnetic radiation produced from nonlinear laser-plasma interactions

Author

Kando, M., Pirozhkov, A. S., Fukuda, Y., Esirkepov, T. Zh., Daito, I., Kawase, K., Ma, J. L., Chen, L. M., Hayashi, Y., Mori, M., Ogura, K., Kotaki, H., Sagisaka, A., Ragozin, E. N., Faenov, A., Pikuz, T., Kiriyama, H., Okada, H., Kameshima, T., Koga, J. K., Belyaev, K., Kamenets, F. F., Sugiyama, A., Kawachi, T., Daido, H., Kimura, T., Kato, Y., Tajima, T., and Bulanov, S. V.

Published
2009
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26. Reconnection of magnetic field lines near critical points

Author

Bulanov, S. V., Dudnikova, G. I., Esirkepov, T. J., Zhukov, V. P., Igor Inovenkov, Kamenets, F. F., Lisejkina, T. V., Naumova, N. M., Nocera, L., Pegoraro, F., Pichushkin, V. V., Pozzoli, R., and Farina, D.

Subjects
___, Physics::Plasma Physics, Physics::Space Physics
Abstract

A review of theoretical studies and computer simulations of the plasma dynamics near critical points of the magnetic field is presented. The global characteristics of reconnection of the magnetic field lines and vortex lines are discussed. Examples of typical patterns of the magnetic field near critical points are presented. The propagation of MHD waves and the formation of singularities near null lines and separatrix surfaces are discussed. Nonlinear regimes of the plasma dynamics are described, and exact solutions of the MHD equations in which the Hall effect is taken into account are presented. The magnetic reconnection in the frame of the electron magnetohydrodynamics model is also discussed. The results of computer simulations of the current sheet formation near null lines and separatrices of the magnetic field are presented. The nonadiabatic motion and the acceleration of charged particles near critical points are discussed.

Published
1996

33. Microislands in tokamaks

Author

Mikhailovskii, A. B., primary, Kovalishen, E. A., additional, Shirokov, M. S., additional, Konovalov, S. V., additional, Tsypin, V. S., additional, Kamenets, F. F., additional, Ozeki, T., additional, and Takizuka, T., additional

Published
2004
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36. Interaction of Charged Particles with Strong Electromagnetic Waves in the Radiation Dominated Regime.

Author

Bulanov, S. V., Esirkepov, T. Zh., Isanin, A. V., Kamenets, F. F., Koga, J., Pegoraro, F., and Tajima, T.

Subjects
ELECTROMAGNETIC waves, PLASMA waves, ELECTROMAGNETIC fields, QUANTUM electrodynamics, PLASMA dynamics, ASTROPHYSICS
Abstract

The interaction of the particles in a plasma with a relativistically intense electromagnetic wave is considered under the conditions when the radiation reaction effects are dominant. A method for generating ultraintense electromagnetic fields is suggested, based on laser pulse compression, carrier frequency up-shifting and focusing by a counter-propagating breaking plasma wave that acts as a relativistic flying parabolic mirror. © 2004 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published
2004
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