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.
Reihe
Sprache
Verlagsort
Verlagsgruppe
Zielgruppe
Für Beruf und Forschung
Professors and students in plasma physics; statistical physics; celestial mechanics; fluid, chaotic, and collective dynamics; classical mechanics; applied mathematics; and nonlinear dynamics.
Maße
Höhe: 235 mm
Breite: 156 mm
ISBN-13
978-0-7503-0613-3 (9780750306133)
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Schweitzer Klassifikation
Autor*in
CNRS, Universite de Provence, France
CNRS, Universite de Provence, France
Basic physical setting
From N-body dynamics to wave-particle interaction
Dynamics of the small amplitude wave-particle system
Statistical description of the small amplitude wave-particle dynamics
Hamiltonian chaos
Diffusion: case of the nonself-consistent dynamics
Self-consistent dynamics in the diffusive regime
Time evolution of the single wave-particle system
Gibbsian equilibrium of the single wave-particle system
Conclusion
Appendices
References
