14 September 1994 Satellite ATON: remote sensing of solar and thermospheric EUV radiations
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Abstract
Long-term radiometric accuracy is a fundamental requirement for future measurement of solar and terrestrial atmospheric EUV emissions from space. Since remote sensing of EUV radiation will become an important measuring technique to explore the thermosphere, new methods have to be established to trace calibration changes of EUV instrumentation, too. With the proposed satellite ATON (Egyptian god of the sun) the solar energy input and other important thermospheric/ionospheric parameters (O2, O, O+, N2, N+, NO, H, He, Ne, Tn, X-rays, solar EUV energy, polar energies) shall be measured based on absolute in-flight calibration of solar and airglow instrumentation. The model payload consists of (1) auto-calibrating solar EUV spectrometers, (2) airglow-solar spectrometer, (3) airglow spectrometer (high spectral resolution), (4) EUV photometers (high data statistics), (5) radio beacon experiment and (6) photocathode arrangement (the latter to detect short-lived solar phenomena of aeronomic interest). The basic measuring concept and instrumental details are presented.
© (1994) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Gerhard Schmidtke, Gerhard Schmidtke, E. Neske, E. Neske, Helmut Becker-Ross, Helmut Becker-Ross, Stefan Florek, Stefan Florek, H. Fahr, H. Fahr, M. Roemer, M. Roemer, N. Jakowski, N. Jakowski, D. Klaehn, D. Klaehn, Y. D. Kotov, Y. D. Kotov, Gerhard Kraemer, Gerhard Kraemer, M. Paetzold, M. Paetzold, Norbert Manfred Pailer, Norbert Manfred Pailer, K. Pflug, K. Pflug, } "Satellite ATON: remote sensing of solar and thermospheric EUV radiations", Proc. SPIE 2282, Ultraviolet Technology V, (14 September 1994); doi: 10.1117/12.186609; https://doi.org/10.1117/12.186609
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