Radiometric Instrumentation and Techniques for Measuring Infrared Emissions from the Atmosphere and Spatially Concentrated Sources,

Abstract

The need to develop very sensitive electro-optical instrumentation for atmospheric studies and defense monitoring systems is of great importance to the understanding of our environment and to the defense of our country. The development of a very versatile, reliable, and sensitive radiometer has provided a tool for performing a variety of significant infrared measurements from ground-based and aircraft platforms in the .8 to 7 micrometers spectral region. The development techniques of the radiometer, the capabilities of the developed instrument, and some typical emission measurements are presented in the paper. The instrument design incorporates various techniques to eliminate the need for cooling of the optics and structural parts, which avoids the inconveniences and difficulties associated with the operation of cryogenically cooled instruments, without significantly sacrificing sensitivity. The radiometer may be used in a selectable spectral wavelength and bandwidth mode, a limited spectral scanning mode, or a tuneable spectral wavelength mode. The various modes of operation are accomplished through the use of interference filters whose spectral characteristics are somewhat adjustable by properly controlling or setting their angular orientation. The simplicity of operation of the instrument has provided a means of measuring atmospheric airglow emissions and aurorally enhanced emissions in the .8 to 1.75 micrometers region on a routine basis. Also, through the use of a reticle chopper and background suppression technique, the same radiometer has been adapted for measurements of low energy, spatially concentrated emissions in the .8 to 7 micrometers region.

Document Details

Document Type

Technical Report

Publication Date

Oct 29, 1976

Accession Number

ADA042757

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