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Wave–Particles Interaction

2014
AbstractIn this Chapter an alternative derivation of the self-consistent Vlasov-Maxwell equations for wave-particles interaction is given. The analysis is carried out under a rigorous Hamiltonian framework and targeted to modeling the dynamics of the Free Electron Laser.
A. Campa   +3 more
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Wave-Particle Interactions

1984
Note: Magnetospheric studies of the interactions between plasma waves and particles have generally been performed using Gaussian units. To allow the material presented here to be conveniently used in conjunction with other published material on magnetospheric wave-particle interactions, we have not converted equations from the literature into MKS units.
L. R. Lyons, D. J. Williams
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Observation of Hamiltonian chaos in wave–particle interaction

Celestial Mechanics and Dynamical Astronomy, 2008
zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Doveil, Fabrice   +2 more
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New resonances in wave–particle interactions

Physics of Plasmas, 2023
One of the most characteristic features of relativistic particle dynamics at cyclotron resonances is the stepwise dependence of energy and momentum on time [V. A. Buts and A. G. Zagorodny, Phys. Plasmas 28(2), 022311 (2021)]. The reason for these steps is the phase synchronization of charged particles and waves. To describe other features, we introduce
V. A. Buts, A. G. Zagorodny
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Relativistic structure of stochastic wave–particle interaction

The Physics of Fluids, 1988
Stochastic interactions of charged particles with electrostatic waves propagating at arbitrary angles to an external magnetic field are studied based on a relativistic canonical Hamiltonian formalism. The present theory, however, is valid also for electromagnetic waves after a slight modification.
Akimoto, K., Karimabadi, H.
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A Modified Fermi Model for Wave-Particle Interactions in Plasmas

Physical Review Letters, 2006
Wave-particle interactions in plasmas are investigated through a nonlinear map that describes elastic collisions between an ensemble of particles and two barriers. The amplitude of the barriers, proportional to the energy of the wave, can increase or decrease due to the sequence of stochastic collisions.
DE MARCO R.   +2 more
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Wave–particle interactions in plasmas

Plasma Physics and Controlled Fusion, 2006
An overview of the interactions between waves and particles in plasmas is given. Interest is focused on cases where special particle populations, like energetic particle tails, interact with waves. The two basic, but inter-related, mechanisms through which waves and particles can exchange energy, resonance and stochastization are briefly illustrated ...
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ON THE EFFICIENCY OF WAVE-PARTICLE INTERACTION

Problems of Atomic Science and Technology
The efficiency of acceleration of charged particles during cyclotron resonances and acceleration of particles in a vacuum without an external magnetic field are considered. It is shown that the statement formulated in Lawson-Woodward theorem that relativistic particles do not exchange energy with an external electromagnetic wave in a vacuum is not ...
V.A. Buts, A.G. Zagorodny
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Wave-particle interactions in the outer magnetosphere: A review

Space Science Reviews, 1975
The application of wave-particle interactions to magnetospheric phenomenology is so extensive and wide-ranging that to attempt to review it in its entirety would result in the production of a sizeable monographic book. For this reason, I have chosen to restrict the present review to only wave-particle interactions and their implication in outer ...
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The Sideband Instability and Wave-Particle Interaction

Physica Scripta, 1983
The sideband instability of a large amplitude electron plasma wave is studied by the numerical solution of the Vlasov equation. To give the contribution of the wave-particle mechanism exactly the quasilinear equations are solved simultaneously. As a result the wave-particle mechanism is to some extent responsible for the instability of the lower ...
B P Koch, R W Leven
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