Recombination lasers in a flowing negative glow discharge

Recombination lasers in a flowing negative glow discharge

A fast gas flow through a negative glow plasma creates an afterglow region where supercooled electrons are separated from energetic beam electronsto produce a population inversion by collisional recombination. A report on spatially resolved electron temperature measurements of the afterglow plasma s...

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Veröffentlicht in:IEEE journal of quantum electronics 1990-09, Vol.26 (9), p.1624-1632
Hauptverfasser: Wernsman, B., Rocca, J.J., Mancini, H.L., Schinca, D., Tocho, J.O.
Format: Artikel
Sprache:eng
Schlagworte:
426002 - Engineering- Lasers & Masers- (1990-)
AMPLIFICATION
ARGON COMPOUNDS
ARGON IODIDES
CATHODES
COLLISIONAL PLASMA
ELECTRIC DISCHARGES
ELECTRODES
Electron beams
ELECTRON TEMPERATURE
ELECTRONIC EQUIPMENT
EMISSION
ENERGY-LEVEL TRANSITIONS
ENGINEERING
Exact sciences and technology
Fluid flow
FUNCTION GENERATORS
Fundamental areas of phenomenology (including applications)
GAIN
GAS LASERS
Gas lasers including excimer and metal-vapor lasers
GLOW DISCHARGES
HALIDES
HALOGEN COMPOUNDS
HOLLOW CATHODES
HYDROGEN ADDITIONS
IODIDES
IODINE COMPOUNDS
Laser beams
LASER MATERIALS
LASERS
LEAD COMPOUNDS
LEAD HALIDES
LEAD IODIDES
MATERIALS
METAL VAPOR LASERS
Optics
Particle beams
Physics
PLASMA
Plasma measurements
Plasma temperature
Plasma waves
PULSE GENERATORS
RARE GAS COMPOUNDS
RECOMBINATION
Spontaneous emission
STEADY-STATE CONDITIONS
STIMULATED EMISSION
ZINC COMPOUNDS
ZINC HALIDES
ZINC IODIDES
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Beschreibung
Zusammenfassung:A fast gas flow through a negative glow plasma creates an afterglow region where supercooled electrons are separated from energetic beam electronsto produce a population inversion by collisional recombination. A report on spatially resolved electron temperature measurements of the afterglow plasma showing electron temperatures in the range of 750-1100 K under steady-state conditions is presented. A 4-cm-long flowing hollow cathode discharge was used to obtain CW (continuous wave) recombination laser oscillation in ArI. Collisional recombination of singly and doubly ionized metal vapor species in the same type of plasma also produced pulsed laser action in infrared lines of PbI, ZnI, PbII, and SnII. The addition of H/sub 2/ is demonstrated to significantly increase the laser output intensity.< >
ISSN:0018-9197
1558-1713
DOI:10.1109/3.102642