Title :
Strong field physics in a scaled interaction
Author_Institution :
Brookhaven Nat. Lab., Upton, NY, USA
Abstract :
Summary form only given, as follows. Over the last decade, the tailoring of a light field for manipulating the dynamics of a system at the quantum level has taken a prevalent role in modern atomic, molecular and optical physics. As first described by Keldysh, the ionization of an atom with an intense laser field scales depending upon frequency and binding energy. We discuss the physics of an alkali metal atom interacting with an intense mid-infrared laser field. Both ionization and harmonic processes are investigated. This understanding provides a roadmap for a quantum jump in ultra-short pulse technology. New experiments are presented which illustrate the appropriateness of strong-field scaling laws and the physics associated with the formation of light pulses on the atomic time-scale (attosecond).
Keywords :
alkali metals; atom-photon collisions; binding energy; high-speed optical techniques; optical harmonic generation; photoionisation; quantum optics; radiation pressure; Keldysh; alkali metal atom; atomic physics; atomic time-scale; attosecond time-scale; binding energy; dynamics; dynamics manipulation; frequency; harmonic processes; intense laser field; intense mid-infrared laser field; ionization; light field; light pulses; molecular physics; optical physics; physics; quantum jump; quantum level; roadmap; scaled interaction; strong field physics; strong-field scaling laws; tailoring; ultra-short pulse technology; Atom lasers; Atom optics; Atomic beams; Frequency; Ionization; Laboratories; Laser modes; Laser theory; Manipulator dynamics;
Conference_Titel :
Nonlinear Optics: Materials, Fundamentals, and Applications, 2000. Technical Digest
Conference_Location :
Kaua´i-Lihue, HI, USA
Print_ISBN :
1-55752-646-X
DOI :
10.1109/NLO.2000.883651
