Diluent cooling of a vacuum-ultraviolet high-pressure xenon laser
- 1 February 1974
- journal article
- research article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 45 (2) , 867-872
- https://doi.org/10.1063/1.1663330
Abstract
Experimental results are presented on the effect of diluent cooling of a 1721‐Å high‐pressure xenon laser produced with a pulsed beam of high‐energy electrons. Both helium and argon were used as diluents in order to limit the rise in the gas temperature that occurs when the electron beam is stopped in the gas. In the Xe–He mixtures the chemistry was not significantly altered by the presence of He; but in the Xe–Ar mixtures, argon was very important in the absorption and transfer of internal electronic energy. The results demonstrate that both diluents improve the operational characteristics of the laser. Only helium is found to improve the efficiency of conversion of electron‐beam energy into stored laser energy.This publication has 5 references indexed in Scilit:
- Observations of stimulated emission from high-pressure krypton and argon/xenon mixturesApplied Physics Letters, 1973
- 1730-Å radiation dominated by stimulated emission from high-pressure xenonJournal of Applied Physics, 1973
- High-pressure xenon laser at 1730 ÅIEEE Journal of Quantum Electronics, 1973
- Electronic Energy Transfer Phenomena in Rare GasesThe Journal of Chemical Physics, 1972
- Stimulated VUV emission in high-pressure xenon excited by high-current relativistic electron beamsApplied Physics Letters, 1972