Machine learning on simulated images identifies that flux eruption events cause more diffuse, polarized, lower-flux millimeter emission with decreased Q-U loop rotation rate, achieving ~80% accuracy with random forests on summary statistics.
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3 Pith papers cite this work. Polarity classification is still indexing.
years
2026 3verdicts
UNVERDICTED 3representative citing papers
Derives new dispersion functions for anisotropic regularized Kappa plasmas, validates them numerically against ALPS for instabilities, and shows cut-off anisotropy acts as stabilizer or free-energy source.
Numerical study showing that increased loss-cone features in bi-kappa ion distributions decrease firehose growth rates and increase ion-cyclotron growth rates, with additional effects from electron anisotropy and drift.
citing papers explorer
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Wave instabilities in anisotropic regularized Kappa plasmas: New plasma dispersion functions and numerical validation
Derives new dispersion functions for anisotropic regularized Kappa plasmas, validates them numerically against ALPS for instabilities, and shows cut-off anisotropy acts as stabilizer or free-energy source.
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Ion firehose and ion cyclotron instability with subtracted-Kappa distributions
Numerical study showing that increased loss-cone features in bi-kappa ion distributions decrease firehose growth rates and increase ion-cyclotron growth rates, with additional effects from electron anisotropy and drift.