Litcius/Paper detail

Unveiling the Interplanetary Solar Radio Bursts of the 2024 Mother’s Day Solar Storm

O. Krupařová, Vratislav Krupař, Á. Szabó, D. Lario, Teresa Nieves‐Chinchilla, Juan Carlos Martínez Oliveros

2024The Astrophysical Journal Letters20 citationsDOIOpen Access PDF

Abstract

Abstract We report on a comprehensive study of interplanetary type III radio bursts linked to X-class solar flares from NOAA active region 13664, which instigated the intense 2024 Mother’s Day solar storm, marked by a geomagnetic storm of −412 nT, the strongest in over two decades. Utilizing novel localization techniques with direction-finding data from STEREO-A, we identify an average eastward drift of 13.°42 ± 11.°63 in radio source locations relative to GOES observations. Our analysis reveals a significant correlation between solar flare intensity and longitude (Kendall’s tau = 0.535) and a strong correlation between radio flux at 1 MHz and GOES 1–8 Å soft X-ray flux (Kendall’s tau = 0.648). The timing analysis shows that peak soft X-ray fluxes typically follow electron beam liftoff by 3.24 ± 4.42 minutes. These insights into solar radio burst propagation and localization enhance our understanding of solar–terrestrial interactions and improve space weather forecasting capabilities.

Topics & Concepts

Space weatherInterplanetary spaceflightPhysicsGeomagnetic stormCoronal mass ejectionSolar flareLongitudeSolar radioIonosphereFlareSolar cycle 22SunspotFlux (metallurgy)StormAstronomyAstrophysicsAtmospheric sciencesLatitudeMeteorologySolar windPlasmaMagnetic fieldMaterials scienceMetallurgyQuantum mechanicsSolar and Space Plasma DynamicsIonosphere and magnetosphere dynamicsGeomagnetism and Paleomagnetism Studies