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A collection of prestigious postgraduate lectures, Nonlinear Dynamics and Spatial Complexity in Optical Systems reviews developments in the theory and practice of nonlinear dynamics and structural complexity, and explores modern-day applications in nonlinear optics. The book addresses systems including both singlemode and multimode lasers, bistable and multistable devices, optical fibers, counter-propagating beam interactions, nonlinear mixing, and related optical phenomena.
Annotation Presents invited lectures and reports on the ensuing working-group discussions from sessions on single-particle nonlinear dynamics, the production and dynamics of high brightness beams, beam dynamics in plasmas, and plasma dynamics in beams. Another 28 contributed papers discuss such topics as evaluating non-linear phase space distortions with frequency analysis, chaotic particle motion in hadron storage rings exhibiting decreasing betatron amplitudes, symplectic integration, linear effects of dispersion on the beam-beam interaction, and preliminary results of finding four-dimensional symplectic maps with reduced chaos. Reproduced from typescripts, some double spaced. No subject index. Annotation c. by Book News, Inc., Portland, Or.
This book of proceedings is an up-to-date review of the advances made in the past two decades on the production, control and exploitation of bright electron and light beams for science — in particular, innovative manipulation and control, in linear and circular accelerators, of high brightness charged particle beams. In the conceptual, theoretical and experimental framework of nonlinear beam dynamics and collective cooperative effects, the book provides an update of the state-of-the-art theoretical formulations, techniques and technologies, innovative concepts and scientific results obtained at existing accelerator facilities. Challenges and solutions, proposed or implemented, for the operation of third and fourth generation storage rings as synchrotron radiation sources and circular colliders for high energy particle physics, as well as radiofrequency linear accelerators for Compton/Thomson scattering-based light sources and free electron lasers, are reviewed and discussed. The complementarity between single-pass and recirculating light sources in energy, timing and spectral operational modes also emerges.
Graduate students in physics and electrical engineering interested in nonlinear dynamics, plasma physics and accelerator physics. Scientists working in accelerator design physics and plasma physics.