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Proceedings Paper

Generation of singlet delta oxygen--a technology update
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Paper Abstract

The rate of generation of O2(1(Delta) g) using the chlorine-basic hydrogen peroxide reaction is a key element to predict the performance of the chemical oxygen iodine laser. O2(1(Delta) g) carries the energy in the laser, thus it is one of the prime determinants of power in the flow. To predict the performance of O2(1(Delta) g) generators requires the prediction of the utilization of chlorine, the yield of excited oxygen, and the concentration of potential contaminants in the chemical exhaust of the generator. This paper is an extension of a previous paper on this same topic. The reader is also referred to a companion paper in this conference which discusses the details of O2(1(Delta) g) production and yield.

Paper Details

Date Published: 1 June 1994
PDF: 14 pages
Proc. SPIE 2119, Intense Beams and Applications: Lasers, Ions, and Microwaves, (1 June 1994); doi: 10.1117/12.172701
Show Author Affiliations
William E. McDermott, Rockwell International Corp./Rocketdyne Div. (United States)

Published in SPIE Proceedings Vol. 2119:
Intense Beams and Applications: Lasers, Ions, and Microwaves
William E. McDermott, Editor(s)

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