Presenting an overview of theory behind attosecond science, this book explains and predicts manifestations of attosecond timescale dynamics in molecular systems. It is ideal for theoretical chemists wanting to better understand molecular dynamics at the ultrafast scale.
Presenting an overview of theory behind attosecond science, this book explains and predicts manifestations of attosecond timescale dynamics in molecular systems. It is ideal for theoretical chemists wanting to better understand molecular dynamics at the ultrafast scale.
Introduction; Low dimensional Models for Simulating Attosecond Processes in Atoms and Molecules; First principles Many electron Dynamics Using the B spline Algebraic Diagrammatic Construction Approach; Ultrafast Electron Dynamics as a Route to Explore Chemical Processes; Time dependent Multiconfigurational Theories of Electronic and Nuclear Dynamics of Molecules in Intense Laser Fields; Light induced Conical Intersections; Theoretical Methods for Attosecond Coupled Electron nuclear Dynamics In Molecular Photoionization; How Nuclear Motion Affects Coherent Electron Dynamics in Molecules; Attophotochemistry: Coherent Electronic Dynamics and Nuclear Motion; General Trajectory Surface Hopping Method for Ultrafast Nonadiabatic Dynamics; Time dependent Restricted active space Self consistent field Theory for Electron Dynamics on the Attosecond Timescale; Real time and Real space Time dependent Density functional Theory Approach to Attosecond Dynamics; Elements of Structure Retrieval in Ultrafast Electron and Laser induced Electron Diffraction from Aligned Polyatomic Molecules
Introduction; Low dimensional Models for Simulating Attosecond Processes in Atoms and Molecules; First principles Many electron Dynamics Using the B spline Algebraic Diagrammatic Construction Approach; Ultrafast Electron Dynamics as a Route to Explore Chemical Processes; Time dependent Multiconfigurational Theories of Electronic and Nuclear Dynamics of Molecules in Intense Laser Fields; Light induced Conical Intersections; Theoretical Methods for Attosecond Coupled Electron nuclear Dynamics In Molecular Photoionization; How Nuclear Motion Affects Coherent Electron Dynamics in Molecules; Attophotochemistry: Coherent Electronic Dynamics and Nuclear Motion; General Trajectory Surface Hopping Method for Ultrafast Nonadiabatic Dynamics; Time dependent Restricted active space Self consistent field Theory for Electron Dynamics on the Attosecond Timescale; Real time and Real space Time dependent Density functional Theory Approach to Attosecond Dynamics; Elements of Structure Retrieval in Ultrafast Electron and Laser induced Electron Diffraction from Aligned Polyatomic Molecules
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