L. M. Biberman scite author profile

We have carried out a detailed analysis of several long pathlength transmission measurements in the 8-12-microm atmospheric window in order to determine the extinction coefficient due to the water vapor continuum. Our results indicate that three modifications to the current LOWTRAN atmospheric transmission model are required. The first two corrections involve an improved fit to the pure water vapor continuum absorption together with the elimination of the atmospheric broadened continuum term. Finally, and most critically, a strong measured temperature dependence must be included in the water vapor continuum absorption coefficient. For pathlengths ranging from 10 km to 50 km, failure to incorporate these corrections can lead to errors in the computed transmission ranging from factors of 2 to more than 10,000.

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Infrared Continuum Absorption by Atmospheric Water Vapor in the 8-12- Micrometer Window

Roberts¹,

Biberman²,

Selby³

1976

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Vision: Human and Electronic

Rose¹,

Biberman

1975

111

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Continuous Spectra of Atomic Gases and Plasma

Biberman¹,

Norman²

1967

Sov. Phys. Usp.

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L. M. Biberman

Kinetics of Nonequilibrium Low-Temperature Plasmas

Infrared continuum absorption by atmospheric water vapor in the 8–12-μm window

Infrared Continuum Absorption by Atmospheric Water Vapor in the 8-12- Micrometer Window

Vision: Human and Electronic

Continuous Spectra of Atomic Gases and Plasma

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