Notice bibliographique
- Notice
Type(s) de contenu et mode(s) de consultation : Texte noté : électronique
Auteur(s) : Liu, Jie
Titre(s) : Classical trajectory perspective of atomic ionization in strong laser fields [Texte électronique] : semiclassical modeling / Jie Liu
Publication : Heidelberg : Springer, cop. 2014
Description matérielle : 1 online resource (1 texte électronique (viii, 84 pages))
Collection : SpringerBriefs in Physics
Note(s) : Titre de l'écran-titre (visionné le 28 février 2014). - Comprend des références bibliographiques
The ionization of atoms and molecules in strong laser fields is an active field in
modern physics and has versatile applications in such as attosecond physics, X-ray
generation, inertial confined fusion (ICF), medical science and so on. Classical Trajectory
Perspective of Atomic Ionization in Strong Laser Fields covers the basic concepts
in this field and discusses many interesting topics using the semiclassical model
of classical trajectory ensemble simulation, which is one of the most successful ionization
models and has the advantages of a clear picture, feasible computing and accounting
for many exquisite experiments quantitatively. The book also presents many applications
of the model in such topics as the single ionization, double ionization, neutral atom
acceleration and other timely issues in strong field physics, and delivers useful
messages to readers with presenting the classical trajectory perspective on the strong
field atomic ionization
Sujet(s) : Lasers
Ionisation
Indice(s) Dewey :
621.366 (23e éd.) = Lasers
Identifiants, prix et caractéristiques : ISBN 9783642405495
Identifiant de la notice : ark:/12148/cb447078066
Notice n° :
FRBNF44707806
(notice reprise d'un réservoir extérieur)
Table des matières : Tunneling ionization and classical trajectory model ; Single ionization in strong
laser fields ; Double ionization in strong laser fields ; Partition of the linear
photon momentum in atomic tunneling ionization ; Acceleration of neutral atoms with
polarized intense laser fields ; Atomic ionization in relativistic intense laser
fields.