The Mount Wilson Ca ii K Plage Index Time Series

The Mount Wilson Ca ii K Plage Index Time Series

It is well established that both total and spectral solar irradiance are modulated by variable magnetic activity on the solar surface. However, there is still disagreement about the contribution of individual solar features for changes in the solar output, in particular over decadal time scales. Ion...

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Bibliographic Details
Published in:Solar physics Vol. 264; no. 1; pp. 31 - 44
Main Authors: Bertello, L., Ulrich, R. K., Boyden, J. E.
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-06-2010
Springer Nature B.V
Subjects:
Astronomy
Astrophysics and Astroparticles
Atmospheric Sciences
Magnetic fields
Physics
Physics and Astronomy
Solar physics
Space Exploration and Astronautics
Space Sciences (including Extraterrestrial Physics
Sun
Time series
Solar activity, observations, data analysis
Chromosphere, active
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Summary:It is well established that both total and spectral solar irradiance are modulated by variable magnetic activity on the solar surface. However, there is still disagreement about the contribution of individual solar features for changes in the solar output, in particular over decadal time scales. Ionized Ca  ii  K line spectroheliograms are one of the major resources for these long-term trend studies, mainly because such measurements have been available now for more than 100 years. In this paper we introduce a new Ca  ii  K plage and active network index time series derived from the digitization of almost 40 000 photographic solar images that were obtained at the 60-foot solar tower, between 1915 and 1985, as a part of the monitoring program of the Mount Wilson Observatory. We describe here the procedure we applied to calibrate the images and the properties of our new defined index, which is strongly correlated to the average fractional area of the visible solar disk occupied by plages and active network. We show that the long-term variation of this index is in an excellent agreement with the 11-year solar-cycle trend determined from the annual international sunspot numbers series. Our time series agrees also very well with similar indicators derived from a different reduction of the same data base and other Ca  ii  K spectroheliograms long-term synoptic programs, such as those at Kodaikanal Observatory (India), and at the National Solar Observatory at Sacramento Peak (USA). Finally, we show that using appropriate proxies it is possible to extend this time series up to date, making this data set one of the longest Ca  ii  K index series currently available.
ISSN:0038-0938
1573-093X
DOI:10.1007/s11207-010-9570-z