Derives a comprehensive analytic linear dispersion relation for the thermal Farley-Buneman instability using kinetic ion description that includes the driving field and combines FBI, ITI, and ETI effects.
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Reassessment using expanded multi-altitude datasets shows claimed ionospheric responses to GRB 221009A are attributable to geophysical processes and instrumental artifacts rather than the burst.
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Kinetic theory of the Thermal Farley-Buneman Instability in the E-region ionosphere
Derives a comprehensive analytic linear dispersion relation for the thermal Farley-Buneman instability using kinetic ion description that includes the driving field and combines FBI, ITI, and ETI effects.
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Reassessment of Ionospheric Responses to GRB~221009A: Disentangling Instrumental, Illumination and Geophysical Effects
Reassessment using expanded multi-altitude datasets shows claimed ionospheric responses to GRB 221009A are attributable to geophysical processes and instrumental artifacts rather than the burst.