Active-region magnetic fields modulate deeper meridional flows in the Sun's near-surface shear layer, driving episodic poleward flux transport and hemispheric asymmetries in polar field evolution.
year = 1959, month = sep, volume =
3 Pith papers cite this work. Polarity classification is still indexing.
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Observational report of polar polarity reversal times in solar cycle 25 from Hinode data, with northern reversal in November 2024 and southern in October 2024.
A visual transformer model trained on IRIS inversions predicts chromospheric temperature and density from SDO data with correlations around 0.8 on 80% of test cases.
citing papers explorer
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Active-region Modulation of Subsurface Meridional Flows and Magnetic Flux Transport on the Sun
Active-region magnetic fields modulate deeper meridional flows in the Sun's near-surface shear layer, driving episodic poleward flux transport and hemispheric asymmetries in polar field evolution.
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Polarity Reversal of the Polar Magnetic Fields in Solar Cycle 25
Observational report of polar polarity reversal times in solar cycle 25 from Hinode data, with northern reversal in November 2024 and southern in October 2024.
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Predicting the thermodynamics in the chromosphere from the translation of SDO data into the IRIS$^{2}$ inversion results using a visual transformer model
A visual transformer model trained on IRIS inversions predicts chromospheric temperature and density from SDO data with correlations around 0.8 on 80% of test cases.