Cosmogenic radionuclides reveal an extreme solar particle storm near a solar minimum 9125 years BP
2022 | journal article. A publication with affiliation to the University of Göttingen.
Jump to: Cite & Linked | Documents & Media | Details | Version history
Cite this publication
Cosmogenic radionuclides reveal an extreme solar particle storm near a solar minimum 9125 years BP
Paleari, C. I.; Mekhaldi, F.; Adolphi, F.; Christl, M.; Vockenhuber, C.; Gautschi, P. & Beer, J. et al. (2022)
Nature Communications, 13(1) art. 214. DOI: https://doi.org/10.1038/s41467-021-27891-4
Documents & Media
Details
- Authors
- Paleari, Chiara I.; Mekhaldi, Florian; Adolphi, Florian; Christl, Marcus; Vockenhuber, Christof; Gautschi, Philip; Beer, Jürg; Brehm, Nicolas; Erhardt, Tobias; Synal, Hans-Arno; Muscheler, Raimund
- Abstract
- Abstract During solar storms, the Sun expels large amounts of energetic particles (SEP) that can react with the Earth’s atmospheric constituents and produce cosmogenic radionuclides such as 14 C, 10 Be and 36 Cl. Here we present 10 Be and 36 Cl data measured in ice cores from Greenland and Antarctica. The data consistently show one of the largest 10 Be and 36 Cl production peaks detected so far, most likely produced by an extreme SEP event that hit Earth 9125 years BP (before present, i.e., before 1950 CE), i.e., 7176 BCE. Using the 36 Cl/ 10 Be ratio, we demonstrate that this event was characterized by a very hard energy spectrum and was possibly up to two orders of magnitude larger than any SEP event during the instrumental period. Furthermore, we provide 10 Be-based evidence that, contrary to expectations, the SEP event occurred near a solar minimum.
- Issue Date
- 2022
- Journal
- Nature Communications
- eISSN
- 2041-1723
- Language
- English
