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Space Science Reviews

, Volume 136, Issue 1–4, pp 565–604 | Cite as

Theoretical modeling for the stereo mission

  • Markus J. Aschwanden
  • L. F. Burlaga
  • M. L. Kaiser
  • C. K. Ng
  • D. V. Reames
  • M. J. Reiner
  • T. I. Gombosi
  • N. Lugaz
  • W. ManchesterIV
  • I. I. Roussev
  • T. H. Zurbuchen
  • C. J. Farrugia
  • A. B. Galvin
  • M. A. Lee
  • J. A. Linker
  • Z. Mikić
  • P. Riley
  • D. Alexander
  • A. W. Sandman
  • J. W. Cook
  • R. A. Howard
  • D. Odstrčil
  • V. J. Pizzo
  • J. Kóta
  • P. C. Liewer
  • J. G. Luhmann
  • B. Inhester
  • R. W. Schwenn
  • S. K. Solanki
  • V. M. Vasyliunas
  • T. Wiegelmann
  • L. Blush
  • P. Bochsler
  • I. H. Cairns
  • P. A. Robinson
  • V. Bothmer
  • K. Kecskemety
  • A. Llebaria
  • M. Maksimovic
  • M. Scholer
  • R. F. Wimmer-Schweingruber
Open Access
Article

Abstract

We summarize the theory and modeling efforts for the STEREO mission, which will be used to interpret the data of both the remote-sensing (SECCHI, SWAVES) and in-situ instruments (IMPACT, PLASTIC). The modeling includes the coronal plasma, in both open and closed magnetic structures, and the solar wind and its expansion outwards from the Sun, which defines the heliosphere. Particular emphasis is given to modeling of dynamic phenomena associated with the initiation and propagation of coronal mass ejections (CMEs). The modeling of the CME initiation includes magnetic shearing, kink instability, filament eruption, and magnetic reconnection in the flaring lower corona. The modeling of CME propagation entails interplanetary shocks, interplanetary particle beams, solar energetic particles (SEPs), geoeffective connections, and space weather. This review describes mostly existing models of groups that have committed their work to the STEREO mission, but is by no means exhaustive or comprehensive regarding alternative theoretical approaches.

Keywords

STEREO mission Solar corona Solar wind Coronal mass ejection (CME) Solar filaments Heliosphere Interplanetary shocks Interplanetary particle beams Solar energetic particle events (SEP) Solar flares Space weather Stereoscopy 3D reconstruction techniques White-light emission EUV emission Interplanetary radio emission 

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Copyright information

© Springer Science+Business Media, Inc. 2007

Authors and Affiliations

  • Markus J. Aschwanden
    • 1
  • L. F. Burlaga
    • 2
  • M. L. Kaiser
    • 2
  • C. K. Ng
    • 2
  • D. V. Reames
    • 2
  • M. J. Reiner
    • 2
  • T. I. Gombosi
    • 3
  • N. Lugaz
    • 3
  • W. ManchesterIV
    • 3
  • I. I. Roussev
    • 3
  • T. H. Zurbuchen
    • 3
  • C. J. Farrugia
    • 4
  • A. B. Galvin
    • 4
  • M. A. Lee
    • 4
  • J. A. Linker
    • 5
  • Z. Mikić
    • 5
  • P. Riley
    • 5
  • D. Alexander
    • 6
  • A. W. Sandman
    • 6
  • J. W. Cook
    • 7
  • R. A. Howard
    • 7
  • D. Odstrčil
    • 8
  • V. J. Pizzo
    • 8
  • J. Kóta
    • 9
  • P. C. Liewer
    • 10
  • J. G. Luhmann
    • 11
  • B. Inhester
    • 12
  • R. W. Schwenn
    • 12
  • S. K. Solanki
    • 12
  • V. M. Vasyliunas
    • 12
  • T. Wiegelmann
    • 12
  • L. Blush
    • 13
  • P. Bochsler
    • 13
  • I. H. Cairns
    • 14
  • P. A. Robinson
    • 14
  • V. Bothmer
    • 15
  • K. Kecskemety
    • 16
  • A. Llebaria
    • 17
  • M. Maksimovic
    • 18
  • M. Scholer
    • 19
  • R. F. Wimmer-Schweingruber
    • 20
  1. 1.Solar & Astrophysics Lab.Lockheed Martin ATCPalo AltoUSA
  2. 2.NASA/Goddard Space Flight CenterGreenbeltUSA
  3. 3.University of MichiganAnn ArborUSA
  4. 4.University of New HampshireDurhamUSA
  5. 5.SAICSan DiegoUSA
  6. 6.Dept. Physics & AstronomyRice UniversityHoustonUSA
  7. 7.Naval Research LaboratoryWashington DCUSA
  8. 8.NOAA/SECBoulderUSA
  9. 9.University of Arizona, Lunar and Planetary LaboratoryTucsonUSA
  10. 10.Jet Propulsion LaboratoryPasadenaUSA
  11. 11.University of Berkeley, Space Sciences Lab.BerkeleyUSA
  12. 12.Max-Planck Institut für SonnensystemforschungKatlenburg-LindauGermany
  13. 13.Physikalisches InstitutUniversity of BernBernSwitzerland
  14. 14.School of PhysicsUniversity of SydneySydneyAustralia
  15. 15.Institut für AstrophysikUniversität GöttingenGöttingenGermany
  16. 16.KFKI RMKIBudapestHungary
  17. 17.Laboratoire d’Astronomie SpatialeC.N.R.S.Marseille CedexFrance
  18. 18.CNRS & LESIAObservatore de Paris-MeudonMeudon CedexFrance
  19. 19.Center for Interdisciplinary Plasma ScienceMax-Planck-Institute for Extraterrestrial PhysicsGarchingGermany
  20. 20.Extraterr, Physics IEAPUniversity of KielKielGermany

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