Beschreibung
InhaltsangabeFoundations of the Strong-Field Approximation.- Trajectory Description of Ionization Processes in Strong Optical Fields.- Many Electron Ionization Processes in Strong and Ultrastrong Fields.- Molecular Rearrangements in Intense Laser Fields.- Optical Control of Chiral Molecular Motors.- Non-Coulomb Explosions of Molecules in Intense Laser Fields.- Excitation, Fragmentation and Control of Large Finite Systems: C60 in Moderately Strong Laser Fields.- Theoretical Description of Rare-Gas Clusters Under Intense Laser Pulses.- Molecular High Order Harmonic Generation.- Nonlinear Multiphoton Process in the XUV Region and its Application to Autocorrelation Measurement.- Controlling Light Polarization for Attosecond Pulse Generation.- Some Fundamental Concepts of Femtosecond Laser Filamentation.- The Transport of Relativistic, Laser-Produced Electrons in Matter - Part 1.- The Transport of Relativistic, Laser-Produced Electrons in Matter - Part 2.- Ultrafast, Ultrahigh Intensity Lasers: Challenges and Perspectives.
Produktsicherheitsverordnung
Hersteller: Springer Verlag GmbH
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DE 69121 Heidelberg
Inhalt
Foundations of the Strong-Field Approximation.- Trajectory Description of Ionization Processes in Strong Optical Fields.- Many Electron Ionization Processes in Strong and Ultrastrong Fields.- Molecular Rearrangements in Intense Laser Fields.- Optical Cotnrol of Chiral Molecular Motors.- Non-Coulomb Explosions of Molecules in Intense Laser Fields.- Excitation, Fragmentation and Control of Large Finite Systems.- Theoretical Description of Rare-Gas Clusters under Intense Laser Pulses.- Molecular High Order Harmonic Generation.- Nonlinear Multiphoton Process in the XUV Region and Its Application to Autocorrelation Measurement.- Controlling Light Polarization for Attosecond Pulse Generation.- Some Fundamental Concepts of Femtosecond Laser Filamentation.- The Transport of Relativistic, Laser-Produced Electrons in Matter - Part 1.- The Transport of Relativistic, Laser-Produced Electrons in Matter - Part 2.- Ultrafast, Ultrahigh Intensity Lasers: Challenges and Perspectives.
