InhaltsangabeCoulomb Explosion Imaging of Molecular Dynamics in Intense Laser Fields.- Intact Molecular Ion Formation of Some Organic Molecules by Femtosecond Lasers.- Ultrafast Electron Dynamics.- S-Matrix Theory of Nonsequential Double Ionization.- Laser Control of Chemical Dynamics. I. Control of Electronic Transitions by Quadratic Chirping.- Laser Control of Chemical Dynamics. II. Control of Wavepacket Motion.- Pulse Shaping Technology of Intense Femtosecond Laser Pulses for Molecule Control.- Control of High Harmonic Generation Processes Using Chirped and Self-Guided Femtosecond Laser Pulses.- Focusing Intense High-Order Harmonics to a Micron Spot Size.- Application of X-Ray Spectroscopy to the Study of Energy Transport in Plasma Produced by an Ultrahigh-Intensity Laser.- Collimated and Ultrafast X-Ray Beams from Laser-Plasma Interactions.- Investigations of Relativistic Laser Plasma from Micron-Sized Ar Clusters.- Full Vectorial, Intense Ultrashort Pulse Propagators: Derivation and Applications.- Some Properties of Femtosecond Laser Filamentation Relevant to Atmospheric Applications Part I. The Robustness of Filamentation.- Some Properties of Femtosecond Laser Filamentation Relevant to Atmospheric Applications Part II. Large-Scale Filamentation.- Fast Electrons in High-Intensity Laser Interactions with Plasmas.- Ultraintense Electromagnetic Radiation in Plasmas: Part II. Relativistic Electromagnetic Solitons and Laser-Driven Ion Acceleration.

Coulomb explosion imaging of molecular dynamics in intense laser fields.- Intact molecular ion formation of some organic molecules by femtosecond lasers.- Ultrafast electron dynamics.- S-matrix theory of nonsequential double ionization.- Laser control of chemical dynamics: Part I. Control of electronic transitions by quadratic chirping.- Laser control of chemical dynamics: Part II. Control of wave packet motion.- Pulse shaping technology of intense femtosecond laser pulses for molecule control.- Control of high harmonic generation processes using chirped and self-guided femtosecond laser pulses.- Focusing intense high-order harmonics to a micron spot size.- X-ray spectroscopy to study energy transport in ultra-high intensity laser produced plasma.- Collimated and ultrafast X-ray beams from laser-plasma interaction.- Investigations of relativistic laser plasma from micron-sized Ar clusters.- Full vectorial, intense ultrashort pulse propagators: Derivation and applications.- Some properties of femtosecond laser filamentation relevant to atmospheric applications: Part I. The robustness of filamentation.- Some properties of femtosecond laser filamentation relevant to atmospheric applications: Part II. Large-scale filamentation.- Fast electrons in high-intensity laser interactions with plasmas.- Ultraintense electromagnetic radiation in plasmas: Part II. Relativistic electromagnetic solitons and laser-driven ion acceleration.