High-angular-momentum states as population traps in multiphoton ionization
- 1 January 1993
- journal article
- Published by American Physical Society (APS) in Physical Review A
- Vol. 47 (1), R45-R48
- https://doi.org/10.1103/physreva.47.r45
Abstract
Resonant and nonresonant multiphoton ionization of xenon is studied using short, circularly polarized light pulses (100 fs, 597 nm, 22 TW/). A pump-probe measurement shows that, although bound states are substantially populated, they do not enhance the ionization signal. The bound states do not ionize because their high angular momentum repels the wave functions from the nucleus. Ionization does occur through intermediate states in the continuum, in spite of a large energy mismatch, because these states have more energy and therefore suffer less from the centrifugal barrier.
Keywords
This publication has 21 references indexed in Scilit:
- Redistribution of Rydberg states by intense picosecond pulsesPhysical Review Letters, 1992
- Effective stabilization of Rydberg states at current laser performancesPhysical Review Letters, 1992
- Ionization suppression of Stark states in intense laser fieldsPhysical Review Letters, 1991
- Inner-electron multiphoton ionization of barium Rydberg states with picosecond pulsesPhysical Review Letters, 1991
- Observability of atomic stabilization in an intense short pulse of radiationPhysical Review A, 1991
- Dynamic stabilization of hydrogen in an intense, high-frequency, pulsed laser fieldPhysical Review Letters, 1991
- Supression of ionization in strong laser fieldsPhysical Review Letters, 1991
- Stabilization of atomic hydrogen in superintense, high-frequency laser fields of circular polarizationPhysical Review Letters, 1990
- Dynamics of atomic ionization suppression and electron localization in an intense high-frequency radiation fieldPhysical Review Letters, 1990
- Population trapping in short-pulse laser ionizationPhysical Review A, 1990