Progress in Ultrafast Intense Laser Science III

ISBN: 978-3-540-73793-3 (Print) 978-3-540-73794-0 (Online)

Table of contents (15 chapters)

  1. Front Matter

    Pages I-XII

  2. No Access

    Book Chapter

    Pages 1-31

    Foundations of the Strong-Field Approximation

  3. No Access

    Book Chapter

    Pages 33-52

    Trajectory Description of Ionization Processes in Strong Optical Fields

  4. No Access

    Book Chapter

    Pages 53-74

    Many Electron Ionization Processes in Strong and Ultrastrong Fields

  5. No Access

    Book Chapter

    Pages 75-91

    Molecular Rearrangements in Intense Laser Fields

  6. No Access

    Book Chapter

    Pages 93-112

    Optical Control of Chiral Molecular Motors

  7. No Access

    Book Chapter

    Pages 113-127

    Non-Coulomb Explosions of Molecules in Intense Laser Fields

  8. No Access

    Book Chapter

    Pages 129-148

    Excitation, Fragmentation and Control of Large Finite Systems: C60 in Moderately Strong Laser Fields

  9. No Access

    Book Chapter

    Pages 149-169

    Theoretical Description of Rare-Gas Clusters Under Intense Laser Pulses

  10. No Access

    Book Chapter

    Pages 171-205

    Molecular High Order Harmonic Generation

  11. No Access

    Book Chapter

    Pages 207-217

    Nonlinear Multiphoton Process in the XUV Region and its Application to Autocorrelation Measurement

  12. No Access

    Book Chapter

    Pages 219-242

    Controlling Light Polarization for Attosecond Pulse Generation

  13. No Access

    Book Chapter

    Pages 243-264

    Some Fundamental Concepts of Femtosecond Laser Filamentation

  14. No Access

    Book Chapter

    Pages 265-294

    The Transport of Relativistic, Laser-Produced Electrons in Matter – Part 1

  15. No Access

    Book Chapter

    Pages 295-322

    The Transport of Relativistic, Laser-Produced Electrons in Matter – Part 2

  16. No Access

    Book Chapter

    Pages 323-355

    Ultrafast, Ultrahigh Intensity Lasers: Challenges and Perspectives

  17. Back Matter

    Pages 357-365