Title :
High homogeneity gain distribution in a cross flow AC excited CO 2 laser
Author :
Burlamacchi, Pio ; Congiu, Francesco ; Fantini, Vincenzo ; Salimbeni, Renzo ; Vanni, Paolo
Author_Institution :
Dept. of Phys., Cagliari Univ., Italy
fDate :
3/1/1990 12:00:00 AM
Abstract :
Gain measurements at 10.6 μm, performed on an alternating-current-excited CO2 laser discharge, are presented. The discharge occurred between individually ballasted p-i-n electrodes. The values of the ballast capacitors were arranged in order to obtain a stable discharge as well as an almost uniform gain distribution through all of the discharge section. The results show that an appropriate distribution of the specific power density into the active medium volume can produce a stable discharge as well as good uniformity of the small-signal gain in the discharge cross section. The downstream small-signal gain, however, decreases slightly, despite a higher excitation rate, due to a higher temperature and an increased thermal population of the lower laser level. The rather high values of the small signal gain, even in the high excitation region, offer promise of good beam quality and high efficiency
Keywords :
carbon compounds; gas lasers; 10.6 micron; CO2; alternating-current-excited CO2 laser discharge; ballast capacitors; beam quality; cross flow AC excited CO2 laser; high efficiency; high excitation region; high homogeneity gain distribution; p-i-n electrodes; power density; small-signal gain; stable discharge; thermal population; Capacitors; Electrodes; Electronic ballasts; Gain measurement; Laser beams; Laser excitation; PIN photodiodes; Performance evaluation; Performance gain; Temperature;
Journal_Title :
Quantum Electronics, IEEE Journal of
