Exploring the reliability of polar field rise rate as a precursor for an early prediction of solar cycle

ABSTRACT The prediction of the strength of an upcoming solar cycle has been a long-standing challenge in the field of solar physics. The inherent stochastic nature of the underlying solar dynamo makes the strength of the solar cycle vary in a wide range. Till now, the polar precursor methods and the...

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Veröffentlicht in:	Monthly notices of the Royal Astronomical Society 2023-10, Vol.526 (3), p.3994-4003
Hauptverfasser:	Biswas, Akash, Karak, Bidya Binay, Kumar, Pawan
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creator	Biswas, Akash Karak, Bidya Binay Kumar, Pawan
description	ABSTRACT The prediction of the strength of an upcoming solar cycle has been a long-standing challenge in the field of solar physics. The inherent stochastic nature of the underlying solar dynamo makes the strength of the solar cycle vary in a wide range. Till now, the polar precursor methods and the dynamo simulations that use the strength of the polar field at the cycle minimum to predict the strength of the following cycle have gained reasonable consensus by providing convergence in the predictions for Solar Cycles 24 and 25. Recently, it has been shown that just by using the observed correlation of the polar field rise rate with the peak of the polar field at the cycle minimum and the amplitude of the following cycle, a reliable prediction can be made much earlier than the cycle minimum. In this work, we perform surface flux transport (SFT) simulations to explore the robustness of this correlation against the stochastic fluctuations of bipolar magnetic region (BMR) tilt properties including anti-Joy and anti-Hale type anomalous BMRs, and against the variation of meridional flow speed. We find that the observed correlation is a robust feature of the solar cycles and thus it can be utilized for a reliable prediction of the solar cycle much earlier than the cycle minimum – the usual landmark of the solar cycle prediction.
doi_str_mv	10.1093/mnras/stad2966
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title	Exploring the reliability of polar field rise rate as a precursor for an early prediction of solar cycle
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