22 September 1983 A Helium-Cooled Absolute Cavity Radiometer For Solar And Laboratory Irradiance Measurement
Author Affiliations +
Abstract
We describe the design and testing of a helium-cooled absolute radiometer (HCAR) devel-oped for highly reproducible measurements of total solar irradiance and ultraviolet flux, and for laboratory standards uses. The receiver of this cryogenic radiometer is a blackened cone of pure copper whose temperature is sensed by a germanium resistance thermometer. During a duty cycle, radiant power input is compared to electrical heating in an accurate resistor wound on the receiver, as in conventional self-calibrating radiometers of the PACRAD and ACR type. But operation at helium temperatures enables us to achieve excellent radia-tive shielding between the receiver and the radiometer thermal background. This enables us to attain a sensitivity level of 10-7 watts at 30 seconds integration time, at least 10 times better than achieved by room temperature cavities. The dramatic drop of copper specific heat at helium temperatures reduces the time constant for a given mass of receiver, by a factor of 103. Together with other cryogenic materials properties such as electrical superconductivity and the high thermal conductivity of copper, this can be used to greatly reduce non-equivalence errors between electrical and radiant heating, that presently limit the absolute accuracy of radiometers to approximately 0,2%. Absolute accuracy of better than 0.01% has been achieved with a similar cryogenic radiometer in laboratory measurements of the Stefan-Boltzmann constant at NPL in the U.K. Electrical and radiometric tests con-ducted so far on our prototype indicate that comparable accuracy and long-term reproducibility can be achieved in a versatile instrument of manageable size for Shuttle flight and laboratory standards uses. This work is supported at AER under NOAA contract NA8ORAC00204 and NSF grant DMR-8260273.
© (1983) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
P. Foukal, P. Foukal, P. Miller, P. Miller, } "A Helium-Cooled Absolute Cavity Radiometer For Solar And Laboratory Irradiance Measurement", Proc. SPIE 0416, Applications of Optical Metrology: Techniques and Measurements II, (22 September 1983); doi: 10.1117/12.935936; https://doi.org/10.1117/12.935936
PROCEEDINGS
8 PAGES


SHARE
RELATED CONTENT

A 110.8 GHz radiometer for stratospheric ozone monitoring
Proceedings of SPIE (December 01 1990)
A New 1.5 K Cryogenerator For Radioastronomical Use
Proceedings of SPIE (April 21 1986)
A cryogenic set-up for accurate measurements of S-parameters
Proceedings of SPIE (September 24 2012)
Total Radiation Thermometry
Proceedings of SPIE (September 26 1989)
Real-time electrical substitution in radiometry
Proceedings of SPIE (September 26 1995)

Back to Top