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Proceedings Paper

Multiwavelength Laser Rate Calorimetry On Various Infrared Window Materials
Author(s): N. C. Fernelius; G. S. Coble; D. V. Dempsey; J. A. Detrio; J. A. Fox; P. R. Greason; G. T. Johnston; D. B. O'Quinn
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Paper Abstract

The effective optical absorption coefficient obtained by the slope method of laser calorimetry is presented for a number of materials at a variety of laser wavelengths. The materials studied include MgF2, NaC1, KC1, LiYF4, CaF2, LiF, YAG, A1203 (sapphire), Si02, BaF2, CORTRAN 9753 and 9754 glass, ZBT glass, GGG, Mg0•A1203 (spinel), ZnSe, MgO, Si, As2S3, ZnS, and calcium aluminate glasses. The laser wavelengths studied were 1.319, 2.7, 3.8, 5.3, 9.27 and 10.6 μm.

Paper Details

Date Published: 26 February 1982
PDF: 6 pages
Proc. SPIE 0297, Emerging Optical Materials, (26 February 1982); doi: 10.1117/12.932495
Show Author Affiliations
N. C. Fernelius, University of Dayton Research Institute (United States)
G. S. Coble, University of Dayton Research Institute (United States)
D. V. Dempsey, University of Dayton Research Institute (United States)
J. A. Detrio, University of Dayton Research Institute (United States)
J. A. Fox, University of Dayton Research Institute (United States)
P. R. Greason, University of Dayton Research Institute (United States)
G. T. Johnston, University of Dayton Research Institute (United States)
D. B. O'Quinn, University of Dayton Research Institute (United States)


Published in SPIE Proceedings Vol. 0297:
Emerging Optical Materials
Solomon Musikant, Editor(s)

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