Title :
A 650 J e-beam-pumped atomic xenon laser
Author :
Litzenberger, Leonard N. ; Trainor, Daniel W. ; McGeoch, Malcolm W.
Author_Institution :
Avco Res. Lab. Inc., Everett, MA, USA
fDate :
9/1/1990 12:00:00 AM
Abstract :
The atomic xenon laser has been scaled from the 80-J per pulse output-energy level reported by N.G. Basov et al. (1986) to 650 J using a large two-sided e-beam-pumped device. The extraction volume dimensions were 0.5 m×0.65×3 m. The gas was pumped at a temporally and spatially averaged rate of 70 kW/cm3, and the spatially averaged specific input energy was 115 J/L. Output-energy measurements were made with a full-aperture calorimeter, and the temporal pulse shape of the 1.73-μm laser radiation was recorded with a spectrally filtered germanium photodiode. The device was operated with argon-xenon gas mixtures at pressures ranging from 20 to 40 psia at a temperature of 23°C, and the xenon mole fraction was empirically optimized. The maximum output energy of 650 J was obtained at an intrinsic efficiency (output energy divided by energy deposited to gas) of 0.57%. A higher efficiency of 0.85% was achieved by using a shorter e-beam pulse, at a reduced laser output energy of 495 J. A possible explanation for the observed laser pulse shape is given
Keywords :
calorimetry; gas lasers; laser variables measurement; xenon; 0.5 m; 0.57 percent; 0.65 m; 0.85 percent; 1.73 micron; 23 degC; 3 m; 495 J; 650 J; 80 J; Ar-Xe; Ge photodiode; atomic Xe laser; e-beam-pumped; energy deposited; extraction volume dimensions; full-aperture calorimeter; intrinsic efficiency; laser output energy; laser pulse shape; mole fraction; output-energy level; specific input energy; spectrally filtered; temporal pulse shape; Atom lasers; Atomic beams; Gas lasers; Optical pulse shaping; Optical pulses; Pulse measurements; Pulsed laser deposition; Pump lasers; Shape measurement; Xenon;
Journal_Title :
Quantum Electronics, IEEE Journal of
