Multiwavelength Laser Rate Calorimetry On Various Infrared Window Materials

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

doi:10.1117/12.932495

26 February 1982 Multiwavelength Laser Rate Calorimetry On Various Infrared Window Materials

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

Proceedings Volume 0297, Emerging Optical Materials; (1982) https://doi.org/10.1117/12.932495
Event: 25th Annual Technical Symposium, 1981, San Diego, United States

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 M_gF₂, 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.

Citation Download Citation

N. C. Fernelius, G. S. Coble, D. V. Dempsey, J. A. Detrio, J. A. Fox, P. R. Greason, G. T. Johnston, and D. B. O'Quinn "Multiwavelength Laser Rate Calorimetry On Various Infrared Window Materials", Proc. SPIE 0297, Emerging Optical Materials, (26 February 1982); https://doi.org/10.1117/12.932495

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