A re-engineered multi-thermal ALMANAC algorithm detects eruptive signatures in multi-wavelength EUV data with improved robustness, reduced fragmentation, and better alignment to coronagraph onset times.
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TMF simulation of AR 12975 reproduces filament channel formation and energy/helicity injection but shows eruption helicity ratio of 0.23 and torus instability at 0.32 due to complex field configuration.
citing papers explorer
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Multi-Thermal CME Detection with ALMANAC
A re-engineered multi-thermal ALMANAC algorithm detects eruptive signatures in multi-wavelength EUV data with improved robustness, reduced fragmentation, and better alignment to coronagraph onset times.
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Formation and Eruption of Filament Channel in Solar Active Region 12975: Insights from Observations and Simulations of Magnetic Field Evolution
TMF simulation of AR 12975 reproduces filament channel formation and energy/helicity injection but shows eruption helicity ratio of 0.23 and torus instability at 0.32 due to complex field configuration.