Title :
Kinetic model for long-pulse XeCl laser performance
Author :
Levin, Lawrence A. ; Moody, Stephen E. ; Klosterman, E. Lee ; Center, Robert E. ; Ewing, J.J.
Author_Institution :
Atomic Energy Commission, Nuclear Research Centre-Negev, Israel
fDate :
12/1/1981 12:00:00 AM
Abstract :
Describes a kinetics model for e-beam excited XeCl lasers using Ne/Xe/HCl gas mixtures. The model has been validated by comparison with measure transient absorption in Ne/Xe mixtures, as well as by comparison with measured laser performance under a range of conditions. A key feature of the model is the inclusion of a fast three-body charge exchange process between Ne2+ and Xe which provides an efficient channel for XeCl* formation through ion-ion recombination. Xe+2 is predicted to be the dominant absorber in Ne/Xe mixtures with with xenon fractions greater than 0.75 percent, while Cl- is predicted to be the major absorber in optimum laser mixtures.
Keywords :
electron beam applications; excimer lasers; xenon compounds; Ne/Xe mixtures; Ne/Xe/HCl gas mixtures; Ne2+; Xe; Xe+2; XeCl* formation; dominant absorber; electron beam excitation; fast three-body charge exchange process; ion-ion recombination; kinetics model; laser performance; long-pulse XeCl laser; major absorber; measure transient absorption; optimum laser mixtures; Absorption; Current density; Electrons; Gas lasers; Kinetic theory; Laser excitation; Laser modes; Optical losses; Pump lasers; Xenon;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.1981.1070708
