This book offers an introduction to the booming field of high-power laser-matter interaction. It covers the heating of matter to super-high temperatures and pressures, novel schemes of fast particle acceleration, matter far from thermal equilibrium, stimulated radiation scattering, relativistic optics, strong field QED, as well as relevant applications, such as extreme states of matter, controlled fusion, and novel radiation sources. All models and methods considered are introduced as they arise and illustrated by relevant examples. Each chapter contains a selection of problems to test the reader's understanding, to apply the models under discussion to relevant situations and to discover their limits of validity. The carefully chosen illustrations greatly facilitate the visualization of physical processes as well as presenting detailed numerical results.
A list of useful formulas and tables are provided as a guide to quantifying results from experiments and numerical simulations. Each chapter ends with a description of the state of the art and the current research frontiers.
A list of useful formulas and tables are provided as a guide to quantifying results from experiments and numerical simulations. Each chapter ends with a description of the state of the art and the current research frontiers.
"The book is clearly written and is dedicated to the emerging field of high-power lasers with pressures comparable to those in collapsing cosmic objects, which exceed the pressures in the interior of stars. ... The book is a course for master students and has nine chapters - each chapter ending with problems, references and a guide for further reading. ... This is a very useful book for readers working in lasers and solid-state physics." (Daniela Dragoman, Optics & Photonics News, osa-opn.org, May 27, 2021)