Abstract
Context. Long and consistent sunspot area records are important for understanding long-term solar activity and variability. Multiple observatories around the globe have regularly recorded sunspot areas, but such individual records only cover restricted periods of time. Furthermore, there are systematic differences between these records and require cross-calibration before they can reliably be used for further studies. Aims. We produce a cross-calibrated and homogeneous record of total daily sunspot areas, both projected and corrected, covering the period between 1874 and 2019. In addition, we generated a catalog of calibrated individual group areas for the same period. Methods. We compared the data from nine archives: Royal Greenwich Observatory (RGO), Kislovodsk, Pulkovo, Debrecen, Kodaikanal, Solar Optical Observing Network (SOON), Rome, Catania, and Yunnan Observatories, covering the period between 1874 and 2019. Cross-comparisons of the individual records were done to produce homogeneous and inter-calibrated records of daily projected and corrected areas. As in earlier studies, the basis of the composite is formed by the data from RGO. After 1976, the only datasets used are those from Kislovodsk, Pulkovo, and Debrecen observatories. This choice was made based on the temporal coverage and the quality of the data. While there are still 776 days missing in the final composite, these remaining gaps could not be filled with data from the other archives as the missing days lie either before 1922 or after 2016 and none of the additional archives cover these periods. Results. In contrast to the SOON data used in previous area composites for the post-RGO period, the properties of the data from Kislovodsk and Pulkovo are very similar to those from the RGO series. They also directly overlap the RGO data in time, which makes their cross-calibration with RGO much more reliable. Indeed, comparing our area catalog with previous such composites, we find improvements both in data quality and coverage. We also computed the daily Photometric Sunspot Index, which is widely used, for example, in empirical reconstructions of solar irradiance.
Highlights
Sunspots, the largest known dark photospheric features, are probably the most recognized manifestation of solar activity
A number of observatories around the globe have carried out measurements of sunspot areas and positions over the last century
As in the earlier studies, we found that areas from Kislovodsk and Pulkovo observatories are in good agreement with Royal Greenwich Observatory (RGO), while having a very good temporal coverage
Summary
The largest known dark photospheric features, are probably the most recognized manifestation of solar activity. Sunspots are one of the oldest ( indirect) measurements of solar magnetic fields. Sunspot area records play an important role in our understanding of the long-term behavior of solar magnetic activity and variability. RGO recorded the daily areas and positions of sunspots. After continuing for a century, RGO stopped its campaign in 1976 and transferred the program to the Debrecen observatory, where such area observations are still underway on a daily basis. If all these available records are stitched together, the combined series covers a period of almost 150 years, which yields a data set suitable for studies of long-term changes in solar magnetism
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