Resonant Interactions in Strong Field Laser Physics
Author: Seth Camp
Publisher:
Published: 2017
Total Pages:
ISBN-13:
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Strong Field Laser Physics
Author: Thomas Brabec
Publisher: Springer Science & Business Media
Published: 2008-09-10
Total Pages: 590
ISBN-13: 038740077X
DOWNLOAD EBOOKDue to the rapid progress in laser technology a wealth of novel fundamental and applied applications of lasers in atomic and plasma physics have become possible. This book focuses on the interaction of high intensity lasers with matter. It reviews the state of the art of high power laser sources, intensity laser-atom and laser-plasma interactions, laser matter interaction at relativistic intensities, and QED with intense lasers.
The Physics of Laser-Atom Interactions
Author: Dieter Suter
Publisher: Cambridge University Press
Published: 1997-10-13
Total Pages: 473
ISBN-13: 0521462398
DOWNLOAD EBOOKA thorough introduction to the interaction of atoms with optical and magnetic fields; for graduate students and researchers.
Theoretical Femtosecond Physics
Author: Frank Grossmann
Publisher: Springer Science & Business Media
Published: 2008-07-24
Total Pages: 216
ISBN-13: 3540778977
DOWNLOAD EBOOKThis volume offers theoretical investigations of atoms and molecules interacting with pulsed or continuous wave lasers. Theoretical background is included, and the text incorporates several exercises. Additional calculations are performed in the appendices.
Strong Field Laser Physics
Author: T. Brabec
Publisher:
Published: 2004
Total Pages: 500
ISBN-13:
DOWNLOAD EBOOKHigh Power Laser-Matter Interaction
Author: Peter Mulser
Publisher: Springer
Published: 2010-07-23
Total Pages: 424
ISBN-13: 3540460659
DOWNLOAD EBOOKIntroduction and handbook to high-power laser-matter interaction, laser generated plasma, nonlinear waves, particle acceleration, nonlinear optics, nonlinear dynamics, radiation transport, it provides a systematic review of the major results and developments of the past 25 years.
Super-Intense Laser—Atom Physics
Author: A. L'Huillier
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 494
ISBN-13: 1461579635
DOWNLOAD EBOOKThe rapid development of powerful pulsed lasers is at the origin of a conside rable interest in studying the response of an atom, a molecule (or a solid) to a strong electromagnetic field. It is now possible to produce at the laboratory scale, ultra-short 13 pulses with a duration of 100 femtoseconds (10- second) and a power of the order 12 of 1 terawatt (10 Watt). Under these conditions, very high peak intensities may be obtained and electric fields exceeding typical electron binding fields in atoms are generated. The interaction of an atom or a molecule with such electromagnetic fields has a highly non-linear character which leads to unexpected phenomena. Amongst them, - above-threshold ionization (ATI) i.e. the absorption of additional photons in excess of the minimal number necessary to overcome the ionization potential and its molecular counterpart, above-threshold dissociation (ATD); - generation of very high harmonics of the driving field; - stabilization of one-electron systems in strong fields. These processes were the main topics of two international meetings which were held in 1989 and 1991 in the United States under the common name SILAP (Super-Intense Laser-Atom Physics).
Atoms, Solids, and Plasmas in Super-Intense Laser Fields
Author: Dimitri Batani
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 409
ISBN-13: 1461513510
DOWNLOAD EBOOKThe recent developement of high power lasers, delivering femtosecond pulses of 20 2 intensities up to 10 W/cm , has led to the discovery of new phenomena in laser interactions with matter. At these enormous laser intensities, atoms, and molecules are exposed to extreme conditions and new phenomena occur, such as the very rapid multi photon ionization of atomic systems, the emission by these systems of very high order harmonics of the exciting laser light, the Coulomb explosion of molecules, and the acceleration of electrons close to the velocity of light. These phenomena generate new behaviour of bulk matter in intense laser fields, with great potential for wide ranging applications which include the study of ultra-fast processes, the development of high-frequency lasers, and the investigation of the properties of plasmas and condensed matter under extreme conditions of temperature and pressure. In particular, the concept of the "fast ignitor" approach to inertial confinement fusion (ICF) has been proposed, which is based on the separation of the compression and the ignition phases in laser-driven ICF. The aim of this course on "Atom, Solids and Plasmas in Super-Intense Laser fields" was to bring together senior researchers and students in atomic and molecular physics, laser physics, condensed matter and plasma physics, in order to review recent developments in high-intensity laser-matter interactions. The course was held at the Ettore Majorana International Centre for Scientific Culture in Erice from July 8 to July 14,2000.
Laser-Plasma Interactions
Author: Dino A. Jaroszynski
Publisher: CRC Press
Published: 2009-03-27
Total Pages: 454
ISBN-13: 1584887796
DOWNLOAD EBOOKA Solid Compendium of Advanced Diagnostic and Simulation ToolsExploring the most exciting and topical areas in this field, Laser-Plasma Interactions focuses on the interaction of intense laser radiation with plasma. After discussing the basic theory of the interaction of intense electromagnetic radiation fields with matter, the book covers three ap
Super-Intense Laser-Atom Physics
Author: Bernard Piraux
Publisher: Springer Science & Business Media
Published: 2001-03-31
Total Pages: 444
ISBN-13: 9780792368632
DOWNLOAD EBOOKThe study of atomic systems exposed to super-intense laser fields de fines an important area in atomic, molecular and optical physics. Although the concept of super-intense field has no absolute meaning, it is now usual to call an electromagnetic field super-intense when it exceeds the atomic binding field. In the case of the simplest atomic system, hydrogen in its 16 2 ground state, this occurs above an intensity of 3. 5 x 10 Wattfcm which is the atomic unit of intensity. Presently at the laboratory scale and in ex tremely short and tightly focussed laser pulses, the electric field strength 16 18 2 reaches peak values which are of the order of 10 - 10 Wattfcm in the infrared frequency regime, the prospect being that such peak intensities may be reached within a few years in a regime of much higher frequencies (XUV or even X). The interaction of such electromagnetic fields with an atomic system has a highly non-linear character which has led to the observation of to tally unexpected phenomena. There are three fundamental processes which have marked the beginning of an intensive research in the field of super intense laser-atom physics (SILAP). These processes which only involve one atomic electron are (i) the so-called above-threshold ionisation i. e.
