Reduced dimer production in solar-simulator-pumped continuous wave iodine lasers based on model simulations and scaling and pumping studies
Abstract
A numerical rate equation model for a continuous wave iodine laser with longitudinally flowing gaseous lasant is validated by approximating two experiments that compare the perfluoroalkyl iodine lasants n-C3F7I and t-C4F9I. The salient feature of the simulations is that the production rate of the dimer (C4F9)2 is reduced by one order of magnitude relative to the dimer (C3F7)2. The model is then used to investigate the kinetic effects of this reduced dimer production, especially how it improves output power. Related parametric and scaling studies are also presented. When dimer production is reduced, more monomer radicals (t-C4F9) are available to combine with iodine ions, thus enhancing depletion of the laser lower level and reducing buildup of the principal quencher, molecular iodine. Fewer iodine molecules result in fewer downward transitions from quenching and more transitions from stimulated emission of lasing photons. Enhanced depletion of the lower level reduces the absorption of lasing photons. The combined result is more lasing photons and proportionally increased output power.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- March 1995
- Bibcode:
- 1995STIN...9523411C
- Keywords:
-
- Continuous Wave Lasers;
- Dimers;
- Fluorocarbons;
- Iodine Lasers;
- Laser Materials;
- Lasing;
- Mathematical Models;
- Reaction Kinetics;
- Iodine;
- Laser Outputs;
- Monomers;
- Photochemical Reactions;
- Stimulated Emission;
- Lasers and Masers