Spectrophone measurements of infrared laser energy absorption by atmospheric dust

Stuart A. Schleusener; James D. Lindberg; Kenneth O. White; Ronald L. Johnson

doi:10.1364/AO.15.002546

Applied Optics
Vol. 15,
Issue 10,
pp. 2546-2550
(1976)
•https://doi.org/10.1364/AO.15.002546

Spectrophone measurements of infrared laser energy absorption by atmospheric dust

Stuart A. Schleusener, James D. Lindberg, Kenneth O. White, and Ronald L. Johnson

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Stuart A. Schleusener, James D. Lindberg, Kenneth O. White, and Ronald L. Johnson, "Spectrophone measurements of infrared laser energy absorption by atmospheric dust," Appl. Opt. 15, 2546-2550 (1976)

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Abstract

A new method of quantitatively measuring the absorption of atmospheric dust or other particulate matter is described. The system uses a differential-spectrophone KBr pellet technique and should ultimately prove useful from the uv to the far ir wavelength region. Preliminary measurement data on atmospheric dust, quartz, and soot are presented at 1.06-μm, 9.6-μm, and 10.6-μm wavelengths.

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Particulate matter	λ (μm)	Spectrophone^an′	Other method^bn′
Atmospheric dust	1.06	0.036	<0.023 Unpublished data3,4
(assumed ρ = 2.4)	9.6	0.290	0.286 Fischer7
	10.6	0.135	0.145 Fischer7
Quartz (ρ = 2.66)	1.06	Negligible	<10⁻⁷ Peterson and Weinman13
	9.6	0.325	0.283 Peterson and Weinman13
	10.6	0.051	0.034 Peterson and Weinman13
Acetylene soot	1.06	0.586	0.65^c Foster and, Howarth14
(assumed ρ = 1.7)	9.6	0.733	0.90^c Foster and Howarth14
	10.6	0.732

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Applied Optics