## Wave-particle interaction and energization in plasmas: proceedings of the 4th week of the Spring College on Plasma Physics : Trieste, Italy, June 7-11, 1993 |

### What people are saying - Write a review

We haven't found any reviews in the usual places.

### Contents

Aspects of magnetospheric activity and parallel electric fields K Schindler | 20 |

Relativistic FokkerPlanck equation for electron cyclotron radiation M Bornatici | 38 |

Experiments on the excitation of large amplitude plasma waves for ultrarelativistic particle acceleration | 51 |

Copyright | |

4 other sections not shown

### Common terms and phrases

approximation assumed astrophysical beam bow shock coefficient collision collisional cometary ions component consider correlation function coupling current drive Debye length denotes density derived described diffusion dispersion relation distribution function effects electric field electron electrostatic energy equilibrium Eulerian Fermi field lines flow fluid flux Fokker-Planck equation frequency Fusion Gaussian Geophys given group velocity inhomogeneity intense interaction laboratory Landau damping large amplitude laser Lett LH waves limit linear lower hybrid magnetic field magnetosphere modulational instability nonlinear nonresonant particles obtained parameter particle acceleration particle distribution perpendicular perturbation phase velocity Physica Scripta pickup Plasma Phys Plasma Physics plasma wave ponderomotive force potential propagating pulse quasilinear radiation random Rayleigh-Taylor instability reconnection region resonant particles scale simulations solar wind soliton solution space spatial spectrum statistical Stenflo structures tearing mode temperature term theory thermal tion tokamak Tsytovich turbulence vector vortices wavelength wavenumber zero