Which solar EUV indices are best for reconstructing the solar EUV irradiance?

The solar EUV irradiance is of key importance for space weather. Most of the time, however, surrogate quantities such as EUV indices have to be used by lack of continuous and spectrally resolved measurements of the irradiance. The ability of such proxies to reproduce the irradiance from different so...

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Bibliographic Details
Published in:Advances in space research 2008-09, Vol.42 (5), p.903-911
Main Authors: Dudok de Wit, T., Kretzschmar, M., Aboudarham, J., Amblard, P.-O., Auchère, F., Lilensten, J.
Format: Article
Language:English
Subjects:
Computer Science
Engineering Sciences
Multivariate statistics
Signal and Image Processing
Solar EUV indices
Solar EUV irradiance
Solar EUV proxies
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Summary:The solar EUV irradiance is of key importance for space weather. Most of the time, however, surrogate quantities such as EUV indices have to be used by lack of continuous and spectrally resolved measurements of the irradiance. The ability of such proxies to reproduce the irradiance from different solar atmospheric layers is usually investigated by comparing patterns of temporal correlations. We consider instead a statistical approach. The TIMED/SEE experiment, which has been continuously operating since February 2002, allows for the first time to compare in a statistical manner the EUV spectral irradiance to five EUV proxies: the sunspot number, the f10.7, Ca K, and Mg II indices, and the He I equivalent width. Using multivariate statistical methods, we represent in a single graph the measure of relatedness between these indices and various strong spectral lines. The ability of each index to reproduce the EUV irradiance is discussed; it is shown why so few lines can be effectively reconstructed from them. All indices exhibit comparable performance, apart from the sunspot number, which is the least appropriate. No single index can satisfactorily describe both the level of variability on time scales beyond 27 days, and relative changes of irradiance on shorter time scales.
ISSN:0273-1177
1879-1948
DOI:10.1016/j.asr.2007.04.019