Microscopic Dynamics of Plasmas and Chaos
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A01=D.F Escande
A01=Y Elskens
Action Angle Variables
Author_D.F Escande
Author_Y Elskens
Beam Wave Interaction
Category=PDND
Category=PHD
Category=PHFP
Chaotic Diffusion
damping
Distribution Function
eq_bestseller
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
eq_non-fiction
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Hamiltonian chaos
Homoclinic Tangle
interaction
landau
Landau Damping
langmuir
Langmuir Waves
Low Temperature Phase
Microcanonical Ensemble
non-dissipative hydrodynamics
nonlinear effects
particle
Particle Distribution Function
phase
Phase Space
Phase Velocity
Quasilinear Diffusion
Quasilinear Equations
Quasilinear Estimate
Resonance Overlap
Resonant Particles
resonant wave-particle interaction
spontaneous
Spontaneous Emission
Stochastic Layer
Unstable Eigenmodes
Unstable Manifold
velocity
Velocity Distribution Function
Vlasov Poisson System
wave
Wave Intensity
Wave Particle Interaction
waves
Product details
- ISBN 9780750306126
- Weight: 680g
- Dimensions: 156 x 234mm
- Publication Date: 23 Oct 2002
- Publisher: Taylor & Francis Ltd
- Publication City/Country: GB
- Product Form: Hardback
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Microscopic Dynamics of Plasmas and Chaos discusses the resonant wave-particle interaction in plasmas, provides the tools for chaotic Hamiltonian dynamics, and describes a turbulent macroscopic system through the chaotic classical mechanics of the corresponding N-body problem. The book begins with the fundamentals of N-body dynamics, followed by a statistical description of wave-particle interactions. It then builds up knowledge by examining advanced material that includes Hamiltonian chaos, chaotic diffusion, self-consistent dynamics in the diffusive regime, as well as temporal evolution of a single-wave particle system. The authors describe the subject matter in a systematic and lucid way, supported by detailed simulations.
Dominique Escande, Yves Elskens
