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Theory of Photon Acceleration: Series in Plasma Physics

Autor J.T Mendonca
en Limba Engleză Hardback – 13 dec 2000
Photo acceleration has dominated the theoretical plasma physics area in recent years and has found application in all subjects where waves in continuous media are studied - plasma physics, astrophysics, and optics. This theory will provide a modern understanding of photon interaction with matter, helping to develop novel accelerators based on laser-plasma interactions, new radiation sources, and even new models for astrophysical objects.

Written by a major player in the field, this book describes the general theory of photo acceleration, which allows fluid, kinetic, quantum, and classical electrodynamical approaches to be formulated. It includes examples from plasma physics, cosmology, fiber optics, mathematical physics, particle accelerator physics, and radiation physics.
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Specificații

ISBN-13: 9780750307116
ISBN-10: 0750307110
Pagini: 244
Dimensiuni: 156 x 234 x 19 mm
Greutate: 0.52 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press
Seria Series in Plasma Physics


Public țintă

Researchers in the fields of intense laser matter interactions, nonlinear optics, and plasma physics.

Cuprins

Introduction. Photon ray theory. Photon dynamics. Photon kinetic theory. Photon equivalent charge. Full wave theory. Nonstationary processes in a cavity. Quantum theory of photon acceleration. New developments. Appendix: Derivation of the Wigner-Moyal equation.

Descriere

Photo acceleration has dominated the theoretical plasma physics area in recent years and has found application in all subjects where waves in continuous media are studied - plasma physics, astrophysics, and optics. This theory will provide a modern understanding of photon interaction with matter, helping to develop novel accelerators based on laser-plasma interactions, new radiation sources, and even new models for astrophysical objects. Written by a major player in the field, this book describes the general theory of photo acceleration, which allows fluid, kinetic, quantum, and classical electrodynamical approaches to be formulated. It includes examples from plasma physics, cosmology, fiber optics, mathematical physics, particle accelerator physics, and radiation physics.