Realization of a scale of absolute spectral response using the National Institute of Standards and Technology high-accuracy cryogenic radiometer
TR Gentile, JM Houston, CL Cromer - Applied Optics, 1996 - opg.optica.org
TR Gentile, JM Houston, CL Cromer
Applied Optics, 1996•opg.optica.orgUsing the National Institute of Standards and Technology high-accuracy cryogenic
radiometer (HACR), we have realized a scale of absolute spectral response between 406
and 920 nm. The HACR, an electrical-substitution radiometer operating at cryogenic
temperatures, achieves a combined relative standard uncertainty of 0.021%. Silicon
photodiode light-trapping detectors were calibrated against the HACR with a typical relative
standard uncertainty of 0.03% at nine laser wavelengths between 406 and 920 nm …
radiometer (HACR), we have realized a scale of absolute spectral response between 406
and 920 nm. The HACR, an electrical-substitution radiometer operating at cryogenic
temperatures, achieves a combined relative standard uncertainty of 0.021%. Silicon
photodiode light-trapping detectors were calibrated against the HACR with a typical relative
standard uncertainty of 0.03% at nine laser wavelengths between 406 and 920 nm …
Using the National Institute of Standards and Technology high-accuracy cryogenic radiometer (HACR), we have realized a scale of absolute spectral response between 406 and 920 nm. The HACR, an electrical-substitution radiometer operating at cryogenic temperatures, achieves a combined relative standard uncertainty of 0.021%. Silicon photodiode light-trapping detectors were calibrated against the HACR with a typical relative standard uncertainty of 0.03% at nine laser wavelengths between 406 and 920 nm. Modeling of the quantum efficiency of these detectors yields their responsivity throughout this range with comparable accuracy.
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