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Magnetic Structure and Propagation of Two Interacting CMEs From the Sun to Saturn.
Palmerio, Erika; Nieves-Chinchilla, Teresa; Kilpua, Emilia K J; Barnes, David; Zhukov, Andrei N; Jian, Lan K; Witasse, Olivier; Provan, Gabrielle; Tao, Chihiro; Lamy, Laurent; Bradley, Thomas J; Mays, M Leila; Möstl, Christian; Roussos, Elias; Futaana, Yoshifumi; Masters, Adam; Sánchez-Cano, Beatriz.
Affiliation
  • Palmerio E; Space Sciences Laboratory University of California-Berkeley Berkeley CA USA.
  • Nieves-Chinchilla T; CPAESS University Corporation for Atmospheric Research Boulder CO USA.
  • Kilpua EKJ; Heliophysics Science Division NASA Goddard Space Flight Center Greenbelt MD USA.
  • Barnes D; Department of Physics University of Helsinki Helsinki Finland.
  • Zhukov AN; STFC RAL Space Rutherford Appleton Laboratory Harwell Campus Oxfordshire UK.
  • Jian LK; Solar-Terrestrial Centre of Excellence-SIDC Royal Observatory of Belgium Brussels Belgium.
  • Witasse O; Skobeltsyn Institute of Nuclear Physics Moscow State University Moscow Russia.
  • Provan G; Heliophysics Science Division NASA Goddard Space Flight Center Greenbelt MD USA.
  • Tao C; ESTEC European Space Agency Noordwijk The Netherlands.
  • Lamy L; School of Physics and Astronomy University of Leicester Leicester UK.
  • Bradley TJ; National Institute of Information and Communications Technology (NICT) Koganei Japan.
  • Mays ML; LESIA Observatoire de Paris PSL CNRS UPMC Université Paris Diderot Meudon France.
  • Möstl C; LAM Pythéas Aix Marseille Université CNRS CNES Marseille France.
  • Roussos E; School of Physics and Astronomy University of Leicester Leicester UK.
  • Futaana Y; Heliophysics Science Division NASA Goddard Space Flight Center Greenbelt MD USA.
  • Masters A; Space Research Institute Austrian Academy of Sciences Graz Austria.
  • Sánchez-Cano B; Institute of Geodesy Graz University of Technology Graz Austria.
J Geophys Res Space Phys ; 126(11): e2021JA029770, 2021 Nov.
Article in En | MEDLINE | ID: mdl-35864948
One of the grand challenges in heliophysics is the characterization of coronal mass ejection (CME) magnetic structure and evolution from eruption at the Sun through heliospheric propagation. At present, the main difficulties are related to the lack of direct measurements of the coronal magnetic fields and the lack of 3D in-situ measurements of the CME body in interplanetary space. Nevertheless, the evolution of a CME magnetic structure can be followed using a combination of multi-point remote-sensing observations and multi-spacecraft in-situ measurements as well as modeling. Accordingly, we present in this work the analysis of two CMEs that erupted from the Sun on April 28, 2012. We follow their eruption and early evolution using remote-sensing data, finding indications of CME-CME interaction, and then analyze their interplanetary counterpart(s) using in-situ measurements at Venus, Earth, and Saturn. We observe a seemingly single flux rope at all locations, but find possible signatures of interaction at Earth, where high-cadence plasma data are available. Reconstructions of the in-situ flux ropes provide almost identical results at Venus and Earth but show greater discrepancies at Saturn, suggesting that the CME was highly distorted and/or that further interaction with nearby solar wind structures took place before 10 AU. This work highlights the difficulties in connecting structures from the Sun to the outer heliosphere and demonstrates the importance of multi-spacecraft studies to achieve a deeper understanding of the magnetic configuration of CMEs.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Type of study: Prognostic_studies Language: En Journal: J Geophys Res Space Phys Year: 2021 Document type: Article Country of publication: United States

Full text: 1 Collection: 01-internacional Database: MEDLINE Type of study: Prognostic_studies Language: En Journal: J Geophys Res Space Phys Year: 2021 Document type: Article Country of publication: United States