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5 June 2003 Electrodynamic modeling of the ElectriCOIL system
Joseph M. Zimmerman, Lawrence W. Skorski, Wayne C. Solomon, Mark J. Kushner, Joseph T. Verdeyen, David L. Carroll
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Proceedings Volume 4971, Gas and Chemical Lasers and Intense Beam Applications IV; (2003) https://doi.org/10.1117/12.483511
Event: High-Power Lasers and Applications, 2003, San Jose, CA, United States
Abstract
Modeling studies have shown that fractions of O2(1Δ) may be produced in an electrical discharge that will enable oscillation of a chemical oxygen-iodine laser system in conjunction with injection of pre-dissociated iodine. Results of those studies along with recent experimental results indicate that generation of O2(1Δ) can be optimized by the addition of flow diluents and select choice of process parameters. The model predicts the experimentally observed spatial decay of O2(1Σ) and shows reasonable agreement with experimentally observed temperatures.
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Joseph M. Zimmerman, Lawrence W. Skorski, Wayne C. Solomon, Mark J. Kushner, Joseph T. Verdeyen, and David L. Carroll "Electrodynamic modeling of the ElectriCOIL system", Proc. SPIE 4971, Gas and Chemical Lasers and Intense Beam Applications IV, (5 June 2003); https://doi.org/10.1117/12.483511
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KEYWORDS
Oxygen
Helium
Chemical lasers
Microwave radiation
Chemical species
Electrodynamics
Chemical oxygen iodine lasers
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