Assessment and Correction of Radiometric Calibration for the Medium Resolution Spectral Imager on FY-3C

As a keystone instrument on the Fengyun-3C (FY-3C) satellite, the medium resolution spectral imager (MERSI) provides global coverage of top-of-atmosphere radiances for a broad range of scientific studies of the earth system. Based on the onboard measurements of the blackbody (BB) and deep space view (SV), the modified radiometric calibration equation was first given for the MERSI thermal emission band. The accuracy of the radiometric calibration was evaluated by comparing the average irradiance corresponding to the spectral response function and the irradiance corresponding to the wavelength, whose relative error was $<$0.40%. Moreover, the BB-derived brightness temperature T-R calculated by the BB irradiance shows a systematic error relative to the BB equivalent temperature T-E obtained by the voltage code values of seven platinum resistors, and the value of T-R was lower 0.25 K than that of T-E. To further verify the validity of the calibration coefficient, the influences of the BB temperature, wavelength, and emissivity offsets on the derived irradiance and temperature of the earth were analyzed in detail. For the BB temperature changing by 0.10 K, the absolute values of the earth irradiance together with its equivalent temperature were 0.01 Wm(-2) sr(-1) mu m(-1) and 0.10 K, respectively, whose relative errors were about 0.16% and 0.40%. When the BB wavelength and emissivity changing by 0.1 mu m and 0.005, the variations of the earth irradiance were 0.02 and 0.04 Wm(-2) sr(-1) mu m(-1), respectively, whereas the relative errors of the equivalent temperature were 0.07% and 0.11%. These works provided an important theoretical guidance for the satellite data assimilations along with the quantitative remote sensing applications. (C) 2022 Society of Photo-Optical Instrumentation Engineers (SPIE)

Optical Engineering