Long-term variability in the length of the solar cycle

Mercedes T. Richards, Michael L. Rogers, Donald St P. Richards

Research output: Contribution to journalArticlepeer-review

20 Scopus citations

Abstract

The recent paucity of sunspots and the delay in the expected start of Solar Cycle 24 have drawn attention to the challenges involved in predicting solar activity. Traditional models of the solar cycle usually require information about the starting time and rise time as well as the shape and amplitude of the cycle. With this tutorial, we investigate the variations in the length of the sunspot number cycle and examine whether the variability can be explained in terms of a secular pattern. We identified long-term cycles in archival data from 1610-2000 using median trace analyses of the cycle length and power spectrum analyses of the (O - C) residuals of the dates of sunspot minima and maxima. Median trace analyses of data spanning 385 years indicate a cycle length with a period of 183-243 yr, and a power spectrum analysis identifies a period of 188 ± 38 yr. We also find a correspondence between the times of historic minima and the length of the sunspot cycle, such that the cycle length increases during the time when the number of spots is at a minimum. In particular, the cycle length was growing during the Maunder minimum when almost no sunspots were visible on the Sun. Our study suggests that the length of the sunspot number cycle should increase gradually, on average, over the next ∼75 yr, accompanied by a gradual decrease in the number of sunspots. This information should be considered in cycle prediction models to provide better estimates of the starting time of each cycle.

Original languageEnglish (US)
Pages (from-to)797-809
Number of pages13
JournalPublications of the Astronomical Society of the Pacific
Volume121
Issue number881
DOIs
StatePublished - Jul 2009

All Science Journal Classification (ASJC) codes

  • Astronomy and Astrophysics
  • Space and Planetary Science

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