One of the major accomplishments of laser technology that took place dur ing the last 15 years is the possibility of generating coherent radiation that 18 can be focused so that its intensity reaches the magnitude of 10 W/ern". Even higher intensities result from nonlinear self-focusing of such radiation in matter. The unique character of these magnitudes is illustrated by the fact that these intensities are substantially higher than those occurring inside the Sun. A range of previously unexplored physical mechanisms come into playas laser pulses interact with matter under the conditions of an…mehr
One of the major accomplishments of laser technology that took place dur ing the last 15 years is the possibility of generating coherent radiation that 18 can be focused so that its intensity reaches the magnitude of 10 W/ern". Even higher intensities result from nonlinear self-focusing of such radiation in matter. The unique character of these magnitudes is illustrated by the fact that these intensities are substantially higher than those occurring inside the Sun. A range of previously unexplored physical mechanisms come into playas laser pulses interact with matter under the conditions of an extreme concen tration of laser energy. In particular, free electrons of plasma formed by rapid nonlinear ionization of gases and solid targets during the pulse rise time are driven by a laser radiation electric field at velocities comparable to the speed of light, and the corresponding relativistic increase in their masses entails a modification of the plasma's optical properties. Laser radiation intensities at which the above effect occurs are called relativistic. This book is intended to provide an introduction to the field of laser physics at relativistic intensities. Extensive theoretical and experimental studies have been performed in this area in the last decade. At present, laser physics at relativistic intensities can be considered a new and rapidly evolving area of modern physics. Impor tant basic new phenomena and concepts of applications are associated with it, among them relativistic and charge-displacement self-channeling, wake field particle acceleration, generation of free electron harmonics and X-rays, and fast ignition.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
Produktdetails
Springer Series on Atomic, Optical, and Plasma Physics 34
Andrew V. Borovsky, General Physics Institute of the Russian Academy of Sciences, Moscow, Russia / Andrew L. Galkin, M.V. Keldysh Institute for Applied Mathematics, Moscow, Russia / Oleg B. Shiryaev, General Physics Institute of the Russian Academy of Sciences, Moscow / Thierry Auguste, DSM/DRECAM/SPAM, Gif-Sur-Yvette, France
Inhaltsangabe
1. Introduction.- 2. Fundamentals of Cold Plasma Electrodynamics.- 3. Relativistically Intense Electromagnetic Waves in Plasmas.- 4. Instabilities of Circularly Polarized Plane Electromagnetic Waves in Plasmas.- 5. Instabilities of Linearly Polarized Plane Electromagnetic Waves in Plasmas.- 6. Models of Nonlinear Propagation of Relativistically Intense Ultrashort Laser Pulses in Plasmas.- 7. Intense Laser Pulse Solitons in Plasmas.- 8. Relativistic and Charge-Displacement Self-Channeling of Intense Ultrashort Laser Pulses in Plasmas.- 9. Dynamics of Relativistic and Charge-Displacement Self-Channeling in Time and 2D Space.- 10. Propagation of Laser Radiation in Multiple-Stage Ionized Matter.- 11. Experiments on Laser-Matter Interaction in the Relativistic Regime.- References.
1. Introduction.- 2. Fundamentals of Cold Plasma Electrodynamics.- 3. Relativistically Intense Electromagnetic Waves in Plasmas.- 4. Instabilities of Circularly Polarized Plane Electromagnetic Waves in Plasmas.- 5. Instabilities of Linearly Polarized Plane Electromagnetic Waves in Plasmas.- 6. Models of Nonlinear Propagation of Relativistically Intense Ultrashort Laser Pulses in Plasmas.- 7. Intense Laser Pulse Solitons in Plasmas.- 8. Relativistic and Charge-Displacement Self-Channeling of Intense Ultrashort Laser Pulses in Plasmas.- 9. Dynamics of Relativistic and Charge-Displacement Self-Channeling in Time and 2D Space.- 10. Propagation of Laser Radiation in Multiple-Stage Ionized Matter.- 11. Experiments on Laser-Matter Interaction in the Relativistic Regime.- References.
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