Tuesday, 14 January 2020: 3:30 PM
205A (Boston Convention and Exhibition Center)
Solar Cycle 24 continues to fade and we anticipate Solar Cycle 25 will begin its rapid rise this year or next. We have learned much about predicting solar activity in Solar Cycle 24, especially with the data provided by SDO and STEREO. These advances have come in the short-term predictions of solar flares and coronal mass ejections, which have benefited from applying machine learning techniques to the new data. The arrival times of coronal mass ejections is a mid-range prediction whose accuracy has been improving, mostly due to a steady flow of data from SoHO, STEREO, and SDO. Longer-term (greater than a year) predictions of solar activity have benefited from helioseismic studies of the plasma flows in the Sun. While these studies have complicated the dynamo models by introducing more complex internal flow patterns, the models should become more robust with the added information. But predictions made long before the next cycle begins still rely on precursors. I will describe the prediction of the SODA polar field precursor method, which has accurately predicted the last three cycles, for Solar Cycle 25. I will also examine our understanding of the polar regions of the Sun --- the seeds of the next cycle.
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