Super-Intense Laser—Atom Physics

Super-Intense Laser—Atom Physics edited by A. L'Huillier, Bernard Piraux, Kazimierz Rzazewski.

The 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 femtosecon...

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Bibliographic Details
Corporate Author: SpringerLink (Online service)
Other Authors: L'Huillier, A. (Editor), Piraux, Bernard (Editor), Rzazewski, Kazimierz (Editor)
Format: eBook
Language:English
Published: New York, NY : Springer US : Imprint: Springer, 1993.
Edition:1st ed. 1993.
Series:Nato Science Series B:, Physics, 316
Springer eBook Collection.
Subjects:
Atoms.
Physics.
Electrical engineering.
Nuclear physics.
Heavy ions.
Continuum physics.
Electronic resources (E-books)
Online Access:Click to view e-book
Holy Cross Note:Loaded electronically.
Electronic access restricted to members of the Holy Cross Community.
Table of Contents:
  • Silap III: an Overview
  • I: Generation of High Harmonics
  • Recent Results in High-Order Harmonic Generation
  • Angular Distributions of High-Order Harmonics
  • Angularly Resolved Ultra High Harmonic Generation Experiments with Picosecond Laser Pulses
  • High-Order Sum and Difference-Frequency Generation in Helium
  • Contribution of Bound-Bound Transitions to High-Order Harmonic Generation
  • Symmetry Breaking and the Control of Harmonics with Strong Short Laser Pulses
  • Propagation of Intense Ultrashort Pulses and Harmonics in Gases
  • Multiple Harmonic Radiation From Metal Surfaces Induced by Strong Laser Pulses
  • II: Dynamics of Multiphoton Ionization of Atoms
  • Dynamics of Short-Pulse Excitation, Ionization and Harmonic Conversion
  • Atoms in Super-Intense Fields: Stabilization, Ionization and High-Harmonic Emission
  • Multiphoton Ionization of Atomic Hydrogen in Intense Laser Pulses: The Role of Rydberg States
  • Structure in the Above Threshold Ionization (ATI) Spectrum under Strong Femtosecond Pulses
  • Ionization in Strong Fields
  • Stabilization of Excited States and Harmonic Generation: Recent Theoretical Results in the Sturmian-Floquet Approach
  • The Use of the Time Correlation Function in Floquet Theory
  • Some Recent Developments in Multiphoton Ionization of Atoms in Intense Fields
  • Atomic State Effects in Stabilization
  • Stabilization Within a Classical Context
  • Dynamical Stabilization of Atoms at Current Laser Performances
  • Strong-Field Interference Stabilization in Atoms and Molecules
  • Stability of Hydrogen Atom in Rydberg States in a Laser Field
  • Stepwise Decay in the Photoionization of Rydberg Atoms
  • Population Trapping in Excited States
  • Atomic Physics with Intense, Subpicosecond Half-Cycle Pulses
  • R-Matrix-Floquet Theory of Multiphoton Processes
  • Ionization of Hydrogen Atoms by Circularly Polarized E-M Field
  • III: Dynamics of Photoionization and Photodissociation of Molecules
  • Ionization of H2+ in Intense Laser Fields
  • Dynamics of Dissociation Versus Ionization in Strong Laser Fields
  • Molecules in Strong Laser Fields: Why are the Fragments Aligned ?
  • Stabilization and Coherence in the Photodissociation of Diatomic Molecules by Intense Lasers
  • IV: Interaction of a Two-Electron System with a Strong Field
  • Single and Double Photoionization of Two-Electron Systems
  • Sequential vs. Simultaneous Ionization of Two-Electron Atoms by Intense Laser Radiation
  • Two-Electron Atoms in Ultra Short, Intense Pulses
  • Quasiclassical Approach to Ionization of Atoms by Strong Laser Pulses: Comparison with the “Simpleman’s” Models and Newtonian Dynamics
  • Stabilization of Multielectron Atoms: Classical Approach
  • Multiphoton Detachment of Hydrogen Negative Ion
  • Strong Field Predictions for Negative Ions in Short Laser Pulses
  • H- in Intense Laser Fields: Laser-Induced Exited States and Dichotomy
  • Electron-Energy Resolved Experiments on Multiphoton Detachment from Negative Ions
  • Observation of Resonant Excess Photon Detachment Via a Window Resonance in the Negative Cesium Ion
  • Author Index.

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