TY - JOUR
T1 - Extreme Solar Events
T2 - Setting up a Paradigm
AU - Usoskin, Ilya
AU - Miyake, Fusa
AU - Baroni, Melanie
AU - Brehm, Nicolas
AU - Dalla, Silvia
AU - Hayakawa, Hisashi
AU - Hudson, Hugh
AU - Jull, A. J.Timothy
AU - Knipp, Delores
AU - Koldobskiy, Sergey
AU - Maehara, Hiroyuki
AU - Mekhaldi, Florian
AU - Notsu, Yuta
AU - Poluianov, Stepan
AU - Rozanov, Eugene
AU - Shapiro, Alexander
AU - Spiegl, Tobias
AU - Sukhodolov, Timofei
AU - Uusitalo, Joonas
AU - Wacker, Lukas
N1 - Publisher Copyright: © 2023, The Author(s).
PY - 2023/12
Y1 - 2023/12
N2 - The Sun is magnetically active and often produces eruptive events on different energetic and temporal scales. Until recently, the upper limit of such events was unknown and believed to be roughly represented by direct instrumental observations. However, two types of extreme events were discovered recently: extreme solar energetic particle events on the multi-millennial time scale and super-flares on sun-like stars. Both discoveries imply that the Sun might rarely produce events, called extreme solar events (ESE), whose energy could be orders of magnitude greater than anything we have observed during recent decades. During the years following these discoveries, great progress has been achieved in collecting observational evidence, uncovering new events, making statistical analyses, and developing theoretical modelling. The ESE paradigm lives and is being developed. On the other hand, many outstanding questions still remain open and new ones emerge. Here we present an overview of the current state of the art and the forming paradigm of ESE from different points of view: solar physics, stellar–solar projections, cosmogenic-isotope data, modelling, historical data, as well as terrestrial, technological and societal effects of ESEs. Special focus is paid to open questions and further developments. This review is based on the joint work of the International Space Science Institute (ISSI) team #510 (2020–2022).
AB - The Sun is magnetically active and often produces eruptive events on different energetic and temporal scales. Until recently, the upper limit of such events was unknown and believed to be roughly represented by direct instrumental observations. However, two types of extreme events were discovered recently: extreme solar energetic particle events on the multi-millennial time scale and super-flares on sun-like stars. Both discoveries imply that the Sun might rarely produce events, called extreme solar events (ESE), whose energy could be orders of magnitude greater than anything we have observed during recent decades. During the years following these discoveries, great progress has been achieved in collecting observational evidence, uncovering new events, making statistical analyses, and developing theoretical modelling. The ESE paradigm lives and is being developed. On the other hand, many outstanding questions still remain open and new ones emerge. Here we present an overview of the current state of the art and the forming paradigm of ESE from different points of view: solar physics, stellar–solar projections, cosmogenic-isotope data, modelling, historical data, as well as terrestrial, technological and societal effects of ESEs. Special focus is paid to open questions and further developments. This review is based on the joint work of the International Space Science Institute (ISSI) team #510 (2020–2022).
KW - Cosmogenic isotopes
KW - Solar activity
KW - Solar flares
KW - Stellar flares
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U2 - 10.1007/s11214-023-01018-1
DO - 10.1007/s11214-023-01018-1
M3 - Review article
SN - 0038-6308
VL - 219
JO - Space Science Reviews
JF - Space Science Reviews
IS - 8
M1 - 73
ER -