Kinetic issues for short-pulse KrF laser operation
Abstract
Various kinetic issues that are important for modeling the performance of large-scale-size krypton fluoride lasers have been investigated. These kinetic issues include: electron quenching, photoionization from excited rare gas atoms, fuel burn-up, and the accessibility of higher lying levels of KrF to be effectively stimulated by the laser cavity flux. The results of these studies have been incorporated into a laser kinetics code. Absorption and gain measurements have been carried out over a broad range of conditions to provide a data base to test the code's accuracy and to make subsequent refinements. The code projections for short-pulse operating conditions important for laser-fusion applications are presented.
- Publication:
-
IEEE Journal of Quantum Electronics
- Pub Date:
- September 1981
- DOI:
- Bibcode:
- 1981IJQE...17.1847K
- Keywords:
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- Krypton Fluoride Lasers;
- Laser Fusion;
- Lasing;
- Reaction Kinetics;
- Ultrashort Pulsed Lasers;
- Atomic Excitations;
- Ionization Cross Sections;
- Laser Cavities;
- Molecular Energy Levels;
- Molecular Excitation;
- Photoionization;
- Power Gain;
- Quenching (Atomic Physics);
- Lasers and Masers