Abstract
In this article, we investigate temporal and periodic variations of the hemispheric sunspot number using sunspot data from Kanzelhöhe Solar Observatory (KSO) for the time period of 1944 – 2017, which covers Solar Cycles 18 to 23 and almost the entire Solar Cycle 24 (2009 – 2017). The KSO data set was verified against the International Sunspot Number (ISSN) data. Temporal and periodic variations in the KSO data were analyzed using cross-correlation analysis, Morlet wavelet and multitaper (MTM) period analysis methods. We find that: i) sunspot numbers, as derived from both KSO and ISSN time series, are highly correlated with one another; ii) the temporal evolution of the sunspot number differs from one hemisphere to another with the solar cycle peaking at different times in each hemisphere; iii) the northern hemisphere showed two- and seven-month lead in Solar Cycles 18 and 19, respectively, while the southern hemisphere was leading in the rest of the cycles with the varying lead time ranging from 2 to 14 months; iv) apart from the fundamental mode of ≈ 11 years, Solar Cycle, the KSO data also show several midterm variations in the opposite hemispheres, specifically, Rieger-type and quasi-biennial periodicities – the detected midterm periodicities also differ in the northern and southern hemispheres; v) our results confirm the Waldmeier effect, which correlates the rise time with the cycle amplitude using the new sunspot data set from KSO.
Original language | English (US) |
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Article number | 142 |
Journal | Solar Physics |
Volume | 294 |
Issue number | 10 |
DOIs | |
State | Published - Oct 1 2019 |
All Science Journal Classification (ASJC) codes
- Astronomy and Astrophysics
- Space and Planetary Science
Keywords
- Hemispheric asymmetry
- Periodicity
- Sunspots
- Wavelet analysis