Autor: |
Georgieva, Elena, Priestley, Kory, Dunn, Barry, Cageao, Richard, Barki, Anum, Osmundsen, Jim, Turczynski, Craig, Abedin, Nurul |
Rok vydání: |
2015 |
Předmět: |
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Zdroj: |
Conference on Characterization and Radiometric Calibration for Remote Sensing (CALCON) |
Popis: |
Radiation Budget Instrument (RBI) will be one of five instruments flying aboard the JPSS-2 spacecraft, a polar-orbiting sun-synchronous satellite in Low Earth Orbit. RBI is a passive remote sensing instrument that will follow the successful legacy of the Clouds and Earth’s Radiant Energy System (CERES) instruments to make a long term measurement of Earth’s radiation budget. The goal of RBI is to provide an independent measurement of the broadband reflected solar radiance and Earth’s emitted thermal radiance by using three spectral bands (Shortwave, Longwave, and Total) that will have the same overlapped point spread function (PSF) footprint on Earth. To ensure precise NIST-traceable calibration in space the RBI sensor is designed to use a visible calibration target (VCT), a solar calibration target (SCT), and an infrared calibration target (ICT) containing phase change cells (PCC) to enable temperature calibration. The VCT is a thermally controlled integrating sphere with space grade Spectralon covering the inner surface. The two sides of the sphere will have fiber-coupled laser diodes in the UV to IR wavelength region. An electrical substitution radiometer on the integrating sphere will monitor the long term stability of the sources and the possible degradation of the Spectralon in space. In addition the radiometric calibration operations will use the Spectralon diffusers of the SCT to provide accurate measurements of solar degradation. All those stable on-orbit references will ensure that calibration stability is maintained over the RBI sensor lifetime. For the preflight calibration the RBI will view five calibration sources – two integrating spheres and three CrIS –like blackbodies whose outputs will be validated with NIST calibration approach. Thermophile detectors are the primary choice for the RBI. The sensor has a requirement to perform lunar calibration in addition to solar calibration in space in a way similar to CERES instruments approach. To monitor climate change and to get meaningful results is critical to assure stable calibration over instrument lifetime. |
Databáze: |
OpenAIRE |
Externí odkaz: |
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