Using STEREO-A data from April to November 2023 as a sub-L1 monitor

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This work is licensed under a Creative Commons Attribution 4.0 International License.

Authors

Eva Weiler, GeoSphere Austria
Christian Möstl, GeoSphere Austria
Emma E. Davies, GeoSphere Austria
Tanja Amerstorfer, GeoSphere Austria
Ute V. Amerstorfer, GeoSphere Austria
Hannah T. Rüdisser, University of Graz
Rachel L. Bailey, GeoSphere Austria
Astrid Veronig, University of Graz
Timothy Horbury, Imperial College London
Noé Lugaz, University of New Hampshire, DurhamFollow
Justin Le Louëdec, GeoSphere Austria
Maike Bauer, GeoSphere Austria

Abstract

Sub-L1 monitors are currently being researched in mission concepts for small satellites and may be deployed on distant retrograde orbits around the Earth in the future. Depending on the location of the sub-L1 monitor, the lead time for the arrival of coronal mass ejections (CMEs) and for determining their geo-effectiveness could be prolonged. If the sub-L1 monitor was to orbit the Earth at a distance of 0.05 AU, as is proposed for the MIIST mission, for example, Dst predictions could be made up to 5 hours in advance. The close encounter of STEREO-A and Wind from April 2023 to November 2023 represents such a constellation, and therefore allows us to investigate potential impacts of future sub-L1 missions. Following the method of Bailey et al. (2020), the data from STEREO-A are mapped to L1, taking into account an expansion of the CME. We then calculate the Dst of the temporally and spatially shifted data, and compare the result with the Dst calculated from L1 solar wind data and the observed Dst. In this way, we can analyse and quantify the implications of sub-L1 monitors on space weather forecasting.The events included in our study are part of the HELIO4CAST lineup catalog v2.0 (https://helioforecast.space/lineups). The catalogue includes CMEs that were observed by at least two spacecraft such as Solar Orbiter, Parker Solar Probe, BepiColombo, STEREO-A, and Wind. In contrast to single in situ measurements, which do not adequately capture the vast structure of CMEs, the events in the catalogue allow us to study the temporal and spatial evolution of CMEs and improve our current understanding of the large-scale structure of their magnetic flux ropes. In view of the upcoming maximum of solar cycle 25, further multipoint events are expected to be continuously added to the catalogue.

Department

Space Science Center

Publication Date

3-9-2024

Journal Title

EGU General Assembly 2024

Publisher

Copernicus GmbH

Digital Object Identifier (DOI)

https://dx.doi.org/10.5194/egusphere-egu24-15074

Document Type

Conference Proceeding

Recommended Citation

Weiler, E., Möstl, C., Davies, E. E., Amerstorfer, T., Amerstorfer, U. V., Rüdisser, H. T., Bailey, R. L., Veronig, A., Horbury, T., Lugaz, N., Le Louëdec, J., and Bauer, M.: Using STEREO-A data from April to November 2023 as a sub-L1 monitor, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-15074, https://doi.org/10.5194/egusphere-egu24-15074, 2024.

Rights

© Author(s) 2024.

Comments

This is an open access article published by Copernicus GmbH in EGU General Assembly 2024 in 2024, available online: https://dx.doi.org/10.5194/egusphere-egu24-15074