Laser control and manipulation of molecules

Laser Control and Manipulation of Molecules provides advances in the studies of chemical dynamics and photochemistry using emerging laser technologies. The book examines both theoretical and experimental advances in this field, and includes such topics as efficient selectivity in chemical reactions, new pulse shaping techniques, and new tools for realistic control and manipulation of molecules. The book is divided into three sections that cover coherent - optimal control, intense fields, and alignment and manipulation. Chapters discuss optimal quantum control in dissipative environments, ultrafast dynamics of molecules in intense laser-light fields, and the propensity of molecules to spatially align in linearly-polarized, intense light fields.

• Part 1: Coherent - Optimal Control
• 1. Controlling Molecular Motion: The Molecule Knows Best
• 2. Variations on the Theme of STIRAP: Control of Chemical Reactions
• 3. Laser Control of Selective Preparation of Pre-oriented Enantiomers from their Racemate
• 4. Experimental and Theoretical Studies of the Channel Phase in the Coherent Control of Molecular Processes
• 5. Four-Wave Mixing and Coherent Control
• 6. Control of Chemical Reactions by Using Chirped Laser Pulses
• 7. Selective Excitation Among Closely Lying Multi-Levels
• 8. Laser Manipulation of Differential Autoionization Yields: Pump-Dump Control Through Coupled Channels
• 9. Optimal Quantum Control in Dissipative Environments: General Formalism and Pertubative Limits
• 10. Manifestation of Coherence on Laser Pulse Propagation
• 11. Double-Pulse Manipulation of Vibrational Wavepackets in HgAr van der Waals Complex
• 12. Real-time Spectroscopy of Molecular Vibration Using Sub-5-fs Pulses
• Part 2: Intense Fields
• 13. Quantum Control by Adaptive Femtosecond Pulse Shaping
• 14. The Mechanisms of Strong-Field Control of Chemical Reactivity Using Tailored Laser Pulses
• 15. Laser-Phase Control of Dissociative Ionization of Molecules: Exact Non-Born Oppenheimer Simulations for H +2
• 16. Molecular Restructuring in Intense Infra-Red Laser Fields
• 17. Ultrafast Dynamics of Molecules in Intense Laser-light Fields: New Research Directions
• 18. Intense-Laser-Induced Electron Transfer and Structure Deformation of Molecules
• Part 3: Alignment and Manipulation
• 19. Manipulating Molecules via Combined Electrostatic and Pulsed Resonant Laser Fields
• 20. Prospects for All-Optical Alignment and Quantum State Control of Nonpolar Molecules
• 21. Alignment of Neutral Molecules by a Strong Nonresonant Linearly-Polarized Laser Field
• 22. Propensity of Molecules to Spatially Align in Linearly-Polarized, Intense Light Fields