# North--South Asymmetry in Solar Activity and Solar Cycle Prediction, IV:   Prediction for Lengths of Upcoming Solar Cycles

**Authors:** J. Javaraiah

arXiv: 1904.11500 · 2019-04-29

## TL;DR

This study analyzes historical sunspot data to identify North-South asymmetries and develop predictions for upcoming solar cycle lengths and epochs, revealing long-term periodicities and dynamo memory effects.

## Contribution

It introduces a method to predict solar cycle lengths and epochs based on North-South asymmetry analysis and cycle memory, extending previous models with new long-term periodicity insights.

## Key findings

- Identified 44-66 year periodicity in asymmetry minima.
- Found 130-140 year periodicity in asymmetry maxima.
- Predicted future solar cycle lengths and epochs with specific dates.

## Abstract

We analyzed the daily sunspot-group data reported by the Greenwich Photoheliographic Results (GPR) during the period 1874-1976 and Debrecen Photoheliographic Data (DPD) during the period 1977-2017 and studied North-South asymmetry in the maxima and minima of the Solar Cycles 12-24. We derived the time series of the 13-month smoothed monthly mean corrected whole-spot areas of the sunspot groups in the Sun's whole sphere (WSGA), northern hemisphere (NSGA), and southern hemisphere (SSGA). From these smoothed time series we obtained the values of the maxima and minima, and the corresponding epochs, of the WSGA, NSGA, and SSGA Cycles 12-24. We find that there exists a 44-66 years periodicity in the North-South asymmetry of the minimum. A long periodicity (130-140 years) may exist in the asymmetry of the maximum. A statistically significant correlation exists between the maximum of SSGA Cycle n and the rise time of WSGA Cycle n + 2. A reasonably significant correlation also exists between the maximum of WSGA Cycle n and the decline time of WSGA Cycle n + 2. These relations suggest that the solar dynamo carries memory over at least three solar cycles. Using these relations we obtained the values 11.7 + or - 0.15 years, 11.2 + or - 0.2 years, and 11.45 + or - 0.3 years for the lengths of WSGA Cycles 24, 25, and 26, respectively, and hence, July 2020, October 2031, and March 2043 for the minimum epochs (start dates) of WSGA Cycles 25, 26, and 27, respectively. We also obtained May 2025 and March 2036 for the maximum epochs of WSGA Cycles 25 and 26, respectively. It seems during the late Maunder minimum sunspot activity was absent around the epochs of the maxima of the NSGA-cycles and the minima of the SSGA-cycles, and some activity was present at the epochs of the maxima of some SSGA-cycles and the minima of some NSGA-cycles.

## Full text

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## Figures

11 figures with captions in the complete paper: https://tomesphere.com/paper/1904.11500/full.md

## References

53 references — full list in the complete paper: https://tomesphere.com/paper/1904.11500/full.md

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Source: https://tomesphere.com/paper/1904.11500