Applications of Laser-Plasma Interactions
Coordonnateurs : Eliezer Shalom, Mima Kunioki
Recent advances in the development of lasers with more energy, power, and brightness have opened up new possibilities for exciting applications. Applications of Laser?Plasma Interactions reviews the current status of high power laser applications.
The book first explores the science and technology behind the ignition and burn of imploded fusion fuel, before describing novel particle accelerators. It then focuses on applications of high power x-ray sources and the development of x-ray lasers. The book also discusses how ultrahigh power lasers are used in nuclear and elementary particle physics applications as well as how the high power density of laser?plasma interactions is used to study matter under extreme conditions. The final chapters deal with femtosecond lasers, presenting applications in materials processing and nanoparticles.
With contributions from a distinguished team of researchers, this work illustrates the many applications of high power lasers, highlighting their important roles in energy, biology, nanotechnology, and more.
Inertial Fusion Energy. Accelerators. X-Ray Sources. X-Ray Lasers. Nuclear and Particle Physics with Ultraintense Lasers. Equations of State. Material Processing with Femtosecond Lasers. Nanoparticles Induced by Femtosecond Lasers. Index.
Date de parution : 11-2019
15.6x23.4 cm
Date de parution : 12-2008
Ouvrage de 272 p.
15.6x23.4 cm
Thèmes d’Applications of Laser-Plasma Interactions :
Mots-clés :
Single Attosecond Pulse; Attosecond Pulse; high-power laser applications; Ideal Gas EOS; nuclear fusion; Laser Plasma Interaction; laser-plasma interactions; X-ray Streak Camera; Laser Pulses; Shock Breakout; Femtosecond Laser; Harmonic Cutoff; Laser Fluence; X-ray Laser; High Order Harmonics Generated; Hugoniot Curve; Virtual Electron Positron Pairs; Neutron Yield; Femtosecond Laser Pulses; Ablation Threshold; Chirped Laser Pulse; Free Surface Velocity; Photon Acceleration; Laser Pulse Length; Wake Wave; Electron Positron Pairs; Electron Beam Ion Trap; Rt Instability