An impulsive geomagnetic effect from an early-impulsive flare

• Main Authors: Hudson, Hugh S, Cliver, Edward. W, Fletcher, Lyndsay, Diver, Declan A, Gallagher, Peter T, Li, Ying, Osborne, Christopher M. J, Stark, Craig, Su, Yang
• Format: Journal Article
• Language: English
• Published: 12.07.2024
• Subjects: Physics - Solar and Stellar Astrophysics; Physics - Space Physics
• DOI: 10.48550/arxiv.2407.09233

The geomagnetic "solar flare effect" (SFE) results from excess ionization in the Earth's ionosphere, famously first detected at the time of the Carrington flare in 1859. This indirect detection of a flare constituted one of the first cases of "multimessenger astronomy," whereby solar ionizing radiation stimulates ionospheric currents. Well-observed SFEs have few-minute time scales and perturbations of >10 nT, with the greatest events reaching above 100 nT. In previously reported cases the SFE time profiles tend to resemble those of solar soft X-ray emission, which ionizes the D-region; there is also a less-well-studied contribution from Lyman-alpha. We report here a specific case, from flare SOL2024-03-10 (M7.4), in which an impulsive SFE deviated from this pattern. This flare contained an "early impulsive" component of exceptionally hard radiation, extending up to gamma-ray energies above 1 MeV, distinctly before the bulk of the flare soft X-ray emission. We can characterize the spectral distribution of this early-impulsive component in detail, thanks to the modern extensive wavelength coverage. A more typical gradual SFE occurred during the flare's main phase. We suggest that events of this type warrant exploration of the solar physics in the "impulse response" limit of very short time scales.