Title :
Gas contaminants produced in electron-beam-pumped XeF lasers
Author :
Kimura, Wayne D. ; Seamans, Jonathan F.
Author_Institution :
Spectra Technol. Inc., Bellevue, WA, USA
fDate :
10/1/1988 12:00:00 AM
Abstract :
To achieve extended gas lifetime in electron-beam (e-beam)-pumped XeF lasers requires knowledge of the gas contaminants produced as a result of homogeneous reactions within the gas mixture and heterogeneous reactions with the laser device materials (e.g. walls and foil). The authors present mass-spectrometer measurements of the contaminants created in an e-beam-pumped XeF laser (300-kV, 23-kA e beam with 10 A/cm2 at the foil) as a result of multiple shots on the same gas mixture using F2 as the halogen fuel. The major contaminants detected, listed in order of prominence, are O2, CO2, CF4, CO, and SiF4. With regard to degradation of the laser performance, it is found that the laser is sensitive to (listed from most sensitive to least) SiF4, CO, HF, CO2 , CF4, and O2. Tests indicate that the major source of contaminants in this particular device is from the e beam striking the opposing wall of the laser chamber
Keywords :
excimer lasers; mass spectroscopic chemical analysis; xenon compounds; 300 kV; CO; CO2; HF; O2; SiF4; XeF; electron-beam-pumped XeF lasers; excimer laser; extended gas lifetime; gas contaminants; heterogeneous reactions; homogeneous reactions; laser performance; mass spectroscopy; tetrafluoromethane; Fuels; Gas lasers; Laser beams; Laser excitation; Nitrogen; Noise measurement; Pollution measurement; Pulse measurements; Pulsed laser deposition; Pump lasers;
Journal_Title :
Quantum Electronics, IEEE Journal of
