English

Uncertainty quantification in sunspot counts

Solar and Stellar Astrophysics 2020-09-22 v1

Abstract

Observing and counting sunspots constitutes one of the longest-running scientific experiment, with first observations dating back to Galileo and the invention of the telescope around 1610. Today the sunspot number (SN) time series acts as a benchmark of solar activity in a large range of physical models. An appropriate statistical modelling, adapted to the time series' complex nature, is however still lacking. In this work, we provide the first comprehensive uncertainty quantification analysis of sunspot counts. Our interest lies in the following three components: the number of spots (NsN_s), the number of sunspot groups (NgN_g), and the composite NcN_c, defined as Nc:=Ns+10NgN_c:=N_s+10N_g. Those are reported by a network of observatories around the world, and are corrupted by errors of various types. We use a multiplicative framework to provide, for each of the three components, an estimation of their error distribution in various regimes (short-term, long-term, minima of solar activity). We also propose a robust estimator for the underlying solar signal and fit a density distribution that takes into account intrinsic characteristics such as over-dispersion, excess of zeros, and multiple modes. The estimation of the solar signal underlying the composite NcN_c may be seen as a robust version of the International Sunspot Number (ISN), a quantity widely used as a proxy of solar activity. Therefore our results on NcN_c may serve to characterize the uncertainty on ISN as well. Our results paves the way for a future monitoring of the observatories in quasi-real time, with the aim to alert the observers when they start deviating from the network and prevent large drifts from occurring in the network.

Keywords

Cite

@article{arxiv.2009.09810,
  title  = {Uncertainty quantification in sunspot counts},
  author = {Sophie Mathieu and Véronique Delouille and Laure Lefèvre and Christian Ritter and Rainer von Sachs},
  journal= {arXiv preprint arXiv:2009.09810},
  year   = {2020}
}

Comments

19 pages, 14 figures, journal paper

R2 v1 2026-06-23T18:41:14.748Z