Speaker
Description
First Name: Nils
Last Name: Janitzek
Affiliation: European Space Agency
All Authors: Nils Janitzek, Fabian Kistler, Muriel Stiefel, Krzysztof Barczynski, Louis Bischof, Louise Harra, Henrik Jentgens, Yingjie Zhu, Raul Gomez-Herrero, Javier Rodriguez-Pacheco, Alexis Rouillard, Alexander Warmuth, Mario Roco Moraleda, Andrea Battaglia, Hannah Collier, Samuel Krucker
Abstract: Solar flares and associated eruptions are a known source of solar energetic particles (SEPs), but it is often challenging to establish a precise link between individual flares and SEP events measured in-situ throughout the heliosphere. The Solar Orbiter mission, with its Spectrometer/Telescope for Imaging X-rays (STIX ) and Energetic Particle Detector (EPD), provides excellent measurements for systematic studies of these phenomena. Based on these data, we developed an algorithm that automatically links solar flares to SEP electron events using a STIX flare list, model prediction of magnetic connectivity between the Sun and the spacecraft, and SEP electron measurements from EPD. As a result, the method identifies several hundred flares to be connected to SEP events - out of more than 25000 flares detected with STIX between 2021 and 2025. The precise linkage criteria can be set by the user - including the accepted distance between flare and modelled magnetic footpoint and the length of the accepted time window for SEP arrival. A first comparison of the automatic method with the CoSEE-Cat electron event catalogue for the time period 2021 - 2022 shows that about 50% of the links found by the algorithm are actual physical links. The method is currently being integrated into a quick-look online tool for flare-SEP linkage.