The spectral radiance of indirectly illuminated surfaces in regions of permanent shadow on the Moon

摘要

Regions of permanent shadow at the lunar poles have been suggested to host water ice and potentially other volatile compounds owing to their extremely low temperatures. Imaging in permanent shadow using indirect lighting from nearby topographic highs illuminated by the Sun has demonstrated the feasibility of optical remote sensing of permanent shadow surfaces, and a near-IR detection of water ice spectral features demonstrates the ability to collect usable spectroscopic data. The infrared emission of the lunar surface is largely in radiative equilibrium, so the temperature of surfaces in permanent shadow is driven by the intensity of the indirect illumination. This means that surfaces at very low temperatures, of high interest owing to their ability to trap and retain volatile compounds, will be the most challenging to measure.We provide estimates of indirect spectral radiance as a function of permanent shadow temperature from 400 nm to 14 mu m using empirical data on permanent shadow temperature and broadband visible and near IR radiance, coupled with known reflectance properties of lunar materials. The relationships show there is ample radiance and photon radiance for reflectance imaging and spectroscopy from 400 nm to 8 mu m at temperatures of regions of permanent shadow above 60K with appropriately designed instruments. Beyond 8 mu m lunar spectral properties reduce the available radiance substantially, making reflectance observations challenging.