Slit homogenizer introduced performance gain analysis based on Sentinel-5/UVNS spectrometer

Abstract: Abstract. The spectral accuracy of high resolution Earth observation spectrometer missions is affected by the impact of spatially heterogeneous Earth radiance scenes on the instrument spectral response function (ISRF). As the ISRF is the direct link between the forward radiative transfer model and the spectra measured by the instrument, distortions of the iSRF owing to radiometric inhomogeneity of the imaged Earth scene will degrade the precision of the Level-2 retrievals. Therefore, the spectral requirements … Show more

“…The homogenisation is achieved in both, the spectral (ALT) and spatial (ACT direction), the latter piece-wise across every ACT spatial sample on ground. This feature distinguishes the fibre-based entrance slit from the slit homogeniser implemented in the Sentinel-5 mission [25], which homogenises only in spectral direction. The homogenisation in 2 dimensions results in a stable, scene-independent slit image on the focal plane, eliminating ISRF distortions from scene heterogeneity in both, spectral and spatial direction [26].…”

The Copernicus CO2M mission for monitoring anthropogenic carbon dioxide emissions from space

“…The homogenisation is achieved in both, the spectral (ALT) and spatial (ACT direction), the latter piece-wise across every ACT spatial sample on ground. This feature distinguishes the fibre-based entrance slit from the slit homogeniser implemented in the Sentinel-5 mission [25], which homogenises only in spectral direction. The homogenisation in 2 dimensions results in a stable, scene-independent slit image on the focal plane, eliminating ISRF distortions from scene heterogeneity in both, spectral and spatial direction [26].…”

The Copernicus CO2M mission for monitoring anthropogenic carbon dioxide emissions from space