We report a measurement of lunar spectral irradiance with an uncertainty below 1 % from 420 nm to 1000 nm. This measurement uncertainty meets the stability requirement for many climate data records derived from satellite images, including those for vegetation, aerosols, and snow and ice albedo. It therefore opens the possibility of using the Moon as a calibration standard to bridge gaps in satellite coverage and validate atmospheric retrieval algorithms. Our measurement technique also yields detailed information about the atmosphere at the measurement site, suggesting that lunar observations are a possible solution for aerosol monitoring during the polar winter and can provide nighttime measurements to complement aerosol data collected with sun photometers. Our measurement, made with a novel apparatus, is an order of magnitude more accurate than the previous state-of- the- art and has continuous spectral coverage, removing the need to interpolate between filter passbands.
Citation: Journal of Research (NIST JRES) - 118.020
NIST Pub Series: Journal of Research (NIST JRES)
Pub Type: NIST Pubs
calibration, lunar spectral irradiance, moon, radiometry, remote sensing