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W2136880219 abstract "Many applications in space weather and in space situational awareness require continuous solar spectral irradiance measurements in the UV, and to a lesser degree in the visible band. Most space-borne solar radiometers are made out of two different parts: (i) a front filter that selects the passband and (ii) a detector that is usually based on silicon technology. Both are prone to degradation, which may be caused either by the degradation of the filter coating due to local deposition or to structural changes, or by the degradation of the silicon detector by solar radiative and energetic particle fluxes. In this study, we provide a theoretical analysis of the filter degradation that is caused by structural changes such as pinholes; contamination-induced degradation will not be considered. We then propose a new instrumental concept, which is expected to overcome, at least partially, these problems. We show how most of the solar UV spectrum can be reconstructed from the measurement of only five spectral bands. This instrumental concept outperforms present spectrometers in terms of degradation. This new concept in addition overcomes the need for silicon-based detectors, which are replaced by wide band gap material detectors. Front filters, which can contribute to in-flight degradation, therefore are not required, except for the extreme-UV (EUV) range. With a small weight and a low telemetry, this concept may also have applications in solar physics, in astrophysics and in planetology." @default.
W2136880219 created "2016-06-24" @default.
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W2136880219 date "2012-01-01" @default.
W2136880219 modified "2023-10-13" @default.
W2136880219 title "New observation strategies for the solar UV spectral irradiance" @default.
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W2136880219 cites W1965867895 @default.
W2136880219 cites W1973571833 @default.
W2136880219 cites W1974277396 @default.
W2136880219 cites W1976232537 @default.
W2136880219 cites W1979301094 @default.
W2136880219 cites W1991823058 @default.
W2136880219 cites W1993715342 @default.
W2136880219 cites W1994881758 @default.
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W2136880219 cites W1999150073 @default.
W2136880219 cites W1999802278 @default.
W2136880219 cites W2004383036 @default.
W2136880219 cites W2004767473 @default.
W2136880219 cites W2005005640 @default.
W2136880219 cites W2006614703 @default.
W2136880219 cites W2008039067 @default.
W2136880219 cites W2020350107 @default.
W2136880219 cites W2022334038 @default.
W2136880219 cites W2028280885 @default.
W2136880219 cites W2034009028 @default.
W2136880219 cites W2035176605 @default.
W2136880219 cites W2037944282 @default.
W2136880219 cites W2039434161 @default.
W2136880219 cites W2044215003 @default.
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W2136880219 cites W2052750118 @default.
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W2136880219 cites W2065361301 @default.
W2136880219 cites W2066103738 @default.
W2136880219 cites W2069759782 @default.
W2136880219 cites W2070330905 @default.
W2136880219 cites W2077563305 @default.
W2136880219 cites W2080853658 @default.
W2136880219 cites W2082742684 @default.
W2136880219 cites W2085704648 @default.
W2136880219 cites W2086297916 @default.
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W2136880219 cites W2087997858 @default.
W2136880219 cites W2091613234 @default.
W2136880219 cites W2107737575 @default.
W2136880219 cites W2108831293 @default.
W2136880219 cites W2112807506 @default.
W2136880219 cites W2116330849 @default.
W2136880219 cites W2126450059 @default.
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W2136880219 doi "https://doi.org/10.1051/swsc/2012016" @default.
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