MAG4 (Magnetogram Forecast), developed originally for NASA/SRAG (Space Radiation Analysis Group), is an automated program that analyzes magnetograms from the HMI (Helioseismic and Magnetic Imager) instrument on NASA SDO (Solar Dynamics Observatory), and automatically converts the rate (or probability) of major flares (M- and X-class), Coronal Mass Ejections (CMEs), and Solar Energetic Particle Events. MAG4 does not forecast that a flare will occur at a particular time in the next 24 or 48 hours; rather the probability of one occurring
YesSolar flares are extremely energetic phenomena in our Solar System. Their impulsive, often drast...
Context. Large-scale solar eruptions significantly affect space weather and damage space-based human...
A crucial challenge to successful flare prediction is forecasting periods that transition between "f...
MAG4 is a technique of forecasting an active region's rate of production of major flares in the comi...
Dangerous space weather is driven by solar flares and Coronal Mass Ejection (CMEs). Forecasting flar...
Solar flares and coronal mass ejections (CMEs) are the drivers of severe space weather. Forecasting ...
Large flares and fast CMEs are the drivers of the most severe space weather including Solar Energeti...
Solar flares produce radiation which can have an almost immediate effect on the near-Earth environme...
YesSolar flares produce radiation which can have an almost immediate effect on the near-Earth enviro...
We propose a forecasting approach for solar flares based on data from Solar Cycle 24, taken by the H...
Solar flares create adverse space weather impacting space and Earth-based technologies. However, the...
This poster describes a tool that is designed to forecast solar drivers for severe space weather. Si...
We have developed a space-weather forecasting tool using an active-region free-energy proxy that was...
From a large database of (1) 40,000 SOHO/MDI line-of-sight magnetograms covering the passage of 1300...
Solar flares create adverse space weather impacting space- and Earth-based technologies. However, th...
YesSolar flares are extremely energetic phenomena in our Solar System. Their impulsive, often drast...
Context. Large-scale solar eruptions significantly affect space weather and damage space-based human...
A crucial challenge to successful flare prediction is forecasting periods that transition between "f...
MAG4 is a technique of forecasting an active region's rate of production of major flares in the comi...
Dangerous space weather is driven by solar flares and Coronal Mass Ejection (CMEs). Forecasting flar...
Solar flares and coronal mass ejections (CMEs) are the drivers of severe space weather. Forecasting ...
Large flares and fast CMEs are the drivers of the most severe space weather including Solar Energeti...
Solar flares produce radiation which can have an almost immediate effect on the near-Earth environme...
YesSolar flares produce radiation which can have an almost immediate effect on the near-Earth enviro...
We propose a forecasting approach for solar flares based on data from Solar Cycle 24, taken by the H...
Solar flares create adverse space weather impacting space and Earth-based technologies. However, the...
This poster describes a tool that is designed to forecast solar drivers for severe space weather. Si...
We have developed a space-weather forecasting tool using an active-region free-energy proxy that was...
From a large database of (1) 40,000 SOHO/MDI line-of-sight magnetograms covering the passage of 1300...
Solar flares create adverse space weather impacting space- and Earth-based technologies. However, th...
YesSolar flares are extremely energetic phenomena in our Solar System. Their impulsive, often drast...
Context. Large-scale solar eruptions significantly affect space weather and damage space-based human...
A crucial challenge to successful flare prediction is forecasting periods that transition between "f...
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