Isolated atoms and molecules subjected to intense, long‐wavelength laser fields undergo a number of processes, including ionization, fragmentation, and emission of high harmonics of the incident light. These processes can be used for a number of technological purposes (such as table‐top coherent XUV and soft X‐ray sources), and contain a rich body of information on the structure and dynamics of the parent molecules and their ions. I will describe the physical origin of these processes, and give some examples of their applications for strong‐field spectroscopies. I will also briefly discuss some of the numerical techniques used for numerical simulations of electron dynamics in strong fields.
Towards understanding dynamics of atoms and molecules in intense laser fields
THE FOURTH INTERNATIONAL WORKSHOP ON THEORETICAL AND COMPUTATIONAL NANOPHOTONICS: TaCoNa‐Photonics 2011 ; 2011 ; Bad Honnef, (Germany)
AIP Conference Proceedings ; 1398 , 1 ; 38-39
2011-10-03
2 pages
Conference paper
Electronic Resource
English
Towards understanding dynamics of atoms and molecules in intense laser fields
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