Title :
A proposed chemically pumped laser based on the b→X transition in O2
Author :
Knickelbein, M.B. ; Marsh, K.L. ; Sercel, J. ; Siebert, L.D. ; Busch, G.E.
Author_Institution :
KMS Fusion Inc., Ann Arbor, MI, USA
fDate :
7/1/1988 12:00:00 AM
Abstract :
Simple kinetics calculations demonstrate that the well-known electronic energy pooling reaction involving O2(a 1Δ) is capable of producing an effective population inversion in O2(b1Σ). The densities of O2(a1Δ) which are potentially achievable suggest that the extractable energy storage density of an O 2(b→X) chemical laser might exceed 0.5 MJ/m3. The b→X emission lifetime measurements conducted under conditions of high relative O2( b1Σ) density reveal no evidence of rapid self-quenching effects which would be potentially detrimental to laser performance. The relatively long energy storage times predicted, together with freedom from reagent mixing requirements, make such a laser an attractive alternative to other existing and proposed short wavelength chemical lasers
Keywords :
chemical lasers; oxygen; O2; chemically pumped laser; electronic energy pooling reaction; emission lifetime measurements; extractable energy storage density; kinetics calculations; long energy storage times; population inversion; Chemical lasers; Energy storage; Kinetic theory; Laboratories; Laser excitation; Laser modes; Laser theory; Laser transitions; Pump lasers; Stationary state;
Journal_Title :
Quantum Electronics, IEEE Journal of
