Theoretical Femtosecond Physics [electronic resource] : Atoms and Molecules in Strong Laser Fields / by Frank Grossmann.

Por: Grossmann, Frank [author.]Tipo de material: TextoTextoSeries Springer Series on Atomic, Optical, and Plasma Physics, 48Editor: Berlin, Heidelberg : Springer Berlin Heidelberg, 2008Descripción: XIII, 216 p. online resourceTipo de contenido: text Tipo de medio: computer Tipo de portador: online resourceISBN: 9783540778974Trabajos contenidos: SpringerLink (Online service)Tema(s): Physics | Physics | Optics, Optoelectronics, Plasmonics and Optical DevicesFormatos físicos adicionales: Sin títuloClasificación CDD: 621.36 Clasificación LoC:QC350-467TA1501-1820QC392-449.5TA1750-1750.22Recursos en línea: de clik aquí para ver el libro electrónico
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Springer eBooksResumen: Theoretical femtosecond physics is a new field of research. Theoretical investigations of atoms and molecules interacting with pulsed or continuous wave lasers of up to atomic field strengths are leading to an understanding of many challenging experimental discoveries. Laser-matter interaction is treated on a nonperturbative level in the book using approximate and numerical solutions of the time-dependent Schrȵdinger equation. The light field is treated classically. Physical phenomena, ranging from ionization of atoms to the ionization and dissociation of molecules and the control of chemical reactions are presented and discussed. Theoretical background for experiments with strong and short laser pulses is given. Several exercises are included in the main text. Some detailed calculations are performed in the appendices.
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Prerequisites -- A Short Introduction to Laser Physics -- Time-Dependent Quantum Theory -- Applications -- Field Matter Coupling and Two-Level Systems -- Single Electron Atoms in Strong Laser Fields -- Molecules in Strong Laser Fields.

Theoretical femtosecond physics is a new field of research. Theoretical investigations of atoms and molecules interacting with pulsed or continuous wave lasers of up to atomic field strengths are leading to an understanding of many challenging experimental discoveries. Laser-matter interaction is treated on a nonperturbative level in the book using approximate and numerical solutions of the time-dependent Schrȵdinger equation. The light field is treated classically. Physical phenomena, ranging from ionization of atoms to the ionization and dissociation of molecules and the control of chemical reactions are presented and discussed. Theoretical background for experiments with strong and short laser pulses is given. Several exercises are included in the main text. Some detailed calculations are performed in the appendices.

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