Earth-affecting solar transients: a review of progresses in solar cycle 24
This review article summarizes the advancement in the studies of Earth-affecting solar transients in the last decade that encompasses most of solar cycle 24. It is a part of the effort of the International Study of Earth-affecting Solar Transients (ISEST) project, sponsored by the SCOSTEP/VarSITI pr...
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| Published in | Progress in earth and planetary science Vol. 8; no. 1; pp. 56 - 102 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
04.10.2021
Springer Nature B.V SpringerOpen |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2197-4284 2197-4284 |
| DOI | 10.1186/s40645-021-00426-7 |
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| Abstract | This review article summarizes the advancement in the studies of Earth-affecting solar transients in the last decade that encompasses most of solar cycle 24. It is a part of the effort of the International Study of Earth-affecting Solar Transients (ISEST) project, sponsored by the SCOSTEP/VarSITI program (2014–2018). The Sun-Earth is an integrated physical system in which the space environment of the Earth sustains continuous influence from mass, magnetic field, and radiation energy output of the Sun in varying timescales from minutes to millennium. This article addresses short timescale events, from minutes to days that directly cause transient disturbances in the Earth’s space environment and generate intense adverse effects on advanced technological systems of human society. Such transient events largely fall into the following four types: (1) solar flares, (2) coronal mass ejections (CMEs) including their interplanetary counterparts ICMEs, (3) solar energetic particle (SEP) events, and (4) stream interaction regions (SIRs) including corotating interaction regions (CIRs). In the last decade, the unprecedented multi-viewpoint observations of the Sun from space, enabled by STEREO Ahead/Behind spacecraft in combination with a suite of observatories along the Sun-Earth lines, have provided much more accurate and global measurements of the size, speed, propagation direction, and morphology of CMEs in both 3D and over a large volume in the heliosphere. Many CMEs, fast ones, in particular, can be clearly characterized as a two-front (shock front plus ejecta front) and three-part (bright ejecta front, dark cavity, and bright core) structure. Drag-based kinematic models of CMEs are developed to interpret CME propagation in the heliosphere and are applied to predict their arrival times at 1 AU in an efficient manner. Several advanced MHD models have been developed to simulate realistic CME events from the initiation on the Sun until their arrival at 1 AU. Much progress has been made on detailed kinematic and dynamic behaviors of CMEs, including non-radial motion, rotation and deformation of CMEs, CME-CME interaction, and stealth CMEs and problematic ICMEs. The knowledge about SEPs has also been significantly improved. An outlook of how to address critical issues related to Earth-affecting solar transients concludes this article. |
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| AbstractList | This review article summarizes the advancement in the studies of Earth-affecting solar transients in the last decade that encompasses most of solar cycle 24. It is a part of the effort of the International Study of Earth-affecting Solar Transients (ISEST) project, sponsored by the SCOSTEP/VarSITI program (2014-2018). The Sun-Earth is an integrated physical system in which the space environment of the Earth sustains continuous influence from mass, magnetic field, and radiation energy output of the Sun in varying timescales from minutes to millennium. This article addresses short timescale events, from minutes to days that directly cause transient disturbances in the Earth's space environment and generate intense adverse effects on advanced technological systems of human society. Such transient events largely fall into the following four types: (1) solar flares, (2) coronal mass ejections (CMEs) including their interplanetary counterparts ICMEs, (3) solar energetic particle (SEP) events, and (4) stream interaction regions (SIRs) including corotating interaction regions (CIRs). In the last decade, the unprecedented multi-viewpoint observations of the Sun from space, enabled by STEREO Ahead/Behind spacecraft in combination with a suite of observatories along the Sun-Earth lines, have provided much more accurate and global measurements of the size, speed, propagation direction, and morphology of CMEs in both 3D and over a large volume in the heliosphere. Many CMEs, fast ones, in particular, can be clearly characterized as a two-front (shock front plus ejecta front) and three-part (bright ejecta front, dark cavity, and bright core) structure. Drag-based kinematic models of CMEs are developed to interpret CME propagation in the heliosphere and are applied to predict their arrival times at 1 AU in an efficient manner. Several advanced MHD models have been developed to simulate realistic CME events from the initiation on the Sun until their arrival at 1 AU. Much progress has been made on detailed kinematic and dynamic behaviors of CMEs, including non-radial motion, rotation and deformation of CMEs, CME-CME interaction, and stealth CMEs and problematic ICMEs. The knowledge about SEPs has also been significantly improved. An outlook of how to address critical issues related to Earth-affecting solar transients concludes this article. This review article summarizes the advancement in the studies of Earth-affecting solar transients in the last decade that encompasses most of solar cycle 24. It is a part of the effort of the International Study of Earth-affecting Solar Transients (ISEST) project, sponsored by the SCOSTEP/VarSITI program (2014-2018). The Sun-Earth is an integrated physical system in which the space environment of the Earth sustains continuous influence from mass, magnetic field, and radiation energy output of the Sun in varying timescales from minutes to millennium. This article addresses short timescale events, from minutes to days that directly cause transient disturbances in the Earth's space environment and generate intense adverse effects on advanced technological systems of human society. Such transient events largely fall into the following four types: (1) solar flares, (2) coronal mass ejections (CMEs) including their interplanetary counterparts ICMEs, (3) solar energetic particle (SEP) events, and (4) stream interaction regions (SIRs) including corotating interaction regions (CIRs). In the last decade, the unprecedented multi-viewpoint observations of the Sun from space, enabled by STEREO Ahead/Behind spacecraft in combination with a suite of observatories along the Sun-Earth lines, have provided much more accurate and global measurements of the size, speed, propagation direction, and morphology of CMEs in both 3D and over a large volume in the heliosphere. Many CMEs, fast ones, in particular, can be clearly characterized as a two-front (shock front plus ejecta front) and three-part (bright ejecta front, dark cavity, and bright core) structure. Drag-based kinematic models of CMEs are developed to interpret CME propagation in the heliosphere and are applied to predict their arrival times at 1 AU in an efficient manner. Several advanced MHD models have been developed to simulate realistic CME events from the initiation on the Sun until their arrival at 1 AU. Much progress has been made on detailed kinematic and dynamic behaviors of CMEs, including non-radial motion, rotation and deformation of CMEs, CME-CME interaction, and stealth CMEs and problematic ICMEs. The knowledge about SEPs has also been significantly improved. An outlook of how to address critical issues related to Earth-affecting solar transients concludes this article.This review article summarizes the advancement in the studies of Earth-affecting solar transients in the last decade that encompasses most of solar cycle 24. It is a part of the effort of the International Study of Earth-affecting Solar Transients (ISEST) project, sponsored by the SCOSTEP/VarSITI program (2014-2018). The Sun-Earth is an integrated physical system in which the space environment of the Earth sustains continuous influence from mass, magnetic field, and radiation energy output of the Sun in varying timescales from minutes to millennium. This article addresses short timescale events, from minutes to days that directly cause transient disturbances in the Earth's space environment and generate intense adverse effects on advanced technological systems of human society. Such transient events largely fall into the following four types: (1) solar flares, (2) coronal mass ejections (CMEs) including their interplanetary counterparts ICMEs, (3) solar energetic particle (SEP) events, and (4) stream interaction regions (SIRs) including corotating interaction regions (CIRs). In the last decade, the unprecedented multi-viewpoint observations of the Sun from space, enabled by STEREO Ahead/Behind spacecraft in combination with a suite of observatories along the Sun-Earth lines, have provided much more accurate and global measurements of the size, speed, propagation direction, and morphology of CMEs in both 3D and over a large volume in the heliosphere. Many CMEs, fast ones, in particular, can be clearly characterized as a two-front (shock front plus ejecta front) and three-part (bright ejecta front, dark cavity, and bright core) structure. Drag-based kinematic models of CMEs are developed to interpret CME propagation in the heliosphere and are applied to predict their arrival times at 1 AU in an efficient manner. Several advanced MHD models have been developed to simulate realistic CME events from the initiation on the Sun until their arrival at 1 AU. Much progress has been made on detailed kinematic and dynamic behaviors of CMEs, including non-radial motion, rotation and deformation of CMEs, CME-CME interaction, and stealth CMEs and problematic ICMEs. The knowledge about SEPs has also been significantly improved. An outlook of how to address critical issues related to Earth-affecting solar transients concludes this article. Abstract This review article summarizes the advancement in the studies of Earth-affecting solar transients in the last decade that encompasses most of solar cycle 24. It is a part of the effort of the International Study of Earth-affecting Solar Transients (ISEST) project, sponsored by the SCOSTEP/VarSITI program (2014–2018). The Sun-Earth is an integrated physical system in which the space environment of the Earth sustains continuous influence from mass, magnetic field, and radiation energy output of the Sun in varying timescales from minutes to millennium. This article addresses short timescale events, from minutes to days that directly cause transient disturbances in the Earth’s space environment and generate intense adverse effects on advanced technological systems of human society. Such transient events largely fall into the following four types: (1) solar flares, (2) coronal mass ejections (CMEs) including their interplanetary counterparts ICMEs, (3) solar energetic particle (SEP) events, and (4) stream interaction regions (SIRs) including corotating interaction regions (CIRs). In the last decade, the unprecedented multi-viewpoint observations of the Sun from space, enabled by STEREO Ahead/Behind spacecraft in combination with a suite of observatories along the Sun-Earth lines, have provided much more accurate and global measurements of the size, speed, propagation direction, and morphology of CMEs in both 3D and over a large volume in the heliosphere. Many CMEs, fast ones, in particular, can be clearly characterized as a two-front (shock front plus ejecta front) and three-part (bright ejecta front, dark cavity, and bright core) structure. Drag-based kinematic models of CMEs are developed to interpret CME propagation in the heliosphere and are applied to predict their arrival times at 1 AU in an efficient manner. Several advanced MHD models have been developed to simulate realistic CME events from the initiation on the Sun until their arrival at 1 AU. Much progress has been made on detailed kinematic and dynamic behaviors of CMEs, including non-radial motion, rotation and deformation of CMEs, CME-CME interaction, and stealth CMEs and problematic ICMEs. The knowledge about SEPs has also been significantly improved. An outlook of how to address critical issues related to Earth-affecting solar transients concludes this article. |
| ArticleNumber | 56 |
| Author | Zhuang, Bin Temmer, Manuela Webb, David Dissauer, Karin Heinemann, Stephan G. Malandraki, Olga Gopalswamy, Nat Lugaz, Noé Laurenza, Monica Dumbović, Mateja Wang, Yuming Desai, Mihir I. Feng, Xueshang Patsourakos, Spiros Zhang, Jie Vršnak, Bojan Dresing, Nina Shen, Fang Nitta, Nariaki V. |
| Author_xml | – sequence: 1 givenname: Jie orcidid: 0000-0003-0951-2486 surname: Zhang fullname: Zhang, Jie email: jzhang7@gmu.edu organization: Department of Physics and Astronomy, George Mason University – sequence: 2 givenname: Manuela surname: Temmer fullname: Temmer, Manuela organization: Institute of Physics, University of Graz – sequence: 3 givenname: Nat surname: Gopalswamy fullname: Gopalswamy, Nat organization: Goddard Space Flight Center – sequence: 4 givenname: Olga surname: Malandraki fullname: Malandraki, Olga organization: National Observatory of Athens, Institute for Astronomy, Astrophysics, Space Applications and Remote Sensing – sequence: 5 givenname: Nariaki V. surname: Nitta fullname: Nitta, Nariaki V. organization: Lockheed Martin Solar and Astrophysics Laboratory – sequence: 6 givenname: Spiros surname: Patsourakos fullname: Patsourakos, Spiros organization: Department of Physics, University of Ioannina – sequence: 7 givenname: Fang surname: Shen fullname: Shen, Fang organization: SIGMA Weather Group, State Key Laboratory of Space Weather, National Space Science Center, Chinese Academy of Sciences – sequence: 8 givenname: Bojan surname: Vršnak fullname: Vršnak, Bojan organization: Hvar Observatory, Faculty of Geodesy, University of Zagreb – sequence: 9 givenname: Yuming surname: Wang fullname: Wang, Yuming organization: CAS Key Laboratory of Geospace Environment, Department of Geophysics and Planetary Sciences, University of Science and Technology of China – sequence: 10 givenname: David surname: Webb fullname: Webb, David organization: ISR, Boston College – sequence: 11 givenname: Mihir I. surname: Desai fullname: Desai, Mihir I. organization: Southwest Research Institute, Department of Physics and Astronomy, University of Texas at San Antonio – sequence: 12 givenname: Karin surname: Dissauer fullname: Dissauer, Karin organization: Institute of Physics, University of Graz, NorthWest Research Association – sequence: 13 givenname: Nina surname: Dresing fullname: Dresing, Nina organization: Institut fuer Experimentelle und Angewandte Physik, University of Kiel, Department of Physics and Astronomy, University of Turku – sequence: 14 givenname: Mateja surname: Dumbović fullname: Dumbović, Mateja organization: Hvar Observatory, Faculty of Geodesy, University of Zagreb – sequence: 15 givenname: Xueshang surname: Feng fullname: Feng, Xueshang organization: SIGMA Weather Group, State Key Laboratory of Space Weather, National Space Science Center, Chinese Academy of Sciences – sequence: 16 givenname: Stephan G. surname: Heinemann fullname: Heinemann, Stephan G. organization: Institute of Physics, University of Graz, Max-Planck-Institut für Sonnensystemforschung – sequence: 17 givenname: Monica surname: Laurenza fullname: Laurenza, Monica organization: INAF-Istituto di Astrofisica e Planetologia Spaziali – sequence: 18 givenname: Noé surname: Lugaz fullname: Lugaz, Noé organization: Space Science Center and Department of Physics, University of New Hampshire – sequence: 19 givenname: Bin surname: Zhuang fullname: Zhuang, Bin organization: Space Science Center and Department of Physics, University of New Hampshire |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/34722120$$D View this record in MEDLINE/PubMed |
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| Keywords | Flare Coronal mass ejection Solar energetic particle Space weather Corona Geomagnetic storms Corotating interaction region Interplanetary coronal mass ejection Sun |
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| Snippet | This review article summarizes the advancement in the studies of Earth-affecting solar transients in the last decade that encompasses most of solar cycle 24.... Abstract This review article summarizes the advancement in the studies of Earth-affecting solar transients in the last decade that encompasses most of solar... |
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| SubjectTerms | 1. Space and planetary sciences Atmospheric Sciences Biogeosciences Corona Coronal mass ejection Corotating interaction region Corotating Interaction Regions (CIR) Earth Earth and Environmental Science Earth Sciences Flare Geophysics/Geodesy Heliosphere Hydrogeology International studies Interplanetary coronal mass ejection Kinematics Magnetic fields Planetology Radiation Review Solar cycle Solar energetic particle Solar flares Spacecraft Sun Variability of the Sun and Its Terrestrial Impact – VarSITI – 5-year summary review |
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| Title | Earth-affecting solar transients: a review of progresses in solar cycle 24 |
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