User menu

Accès à distance ? S'identifier sur le proxy UCLouvain | Saint-Louis

MLT Plasmapause Characteristics: Comparison Between THEMIS Observations and Numerical Simulations

  • Open access
  • PDF
  • 1.86 M
  1. Bandić, Journal of Geophysical Research: Space Physics, 121, 4397 (2016)
  2. Bandić Mario, Verbanac Giuli, Pierrard Viviane, Cho Junghee, Evidence of MLT propagation of the plasmapause inferred from THEMIS data, 10.1016/j.jastp.2017.05.005
  3. Carpenter D. L., Anderson R. R., An ISEE/whistler model of equatorial electron density in the magnetosphere, 10.1029/91ja01548
  4. Chen A.J., Wolf R.A., Effects on the plasmasphere of a time-varying convection electric field, 10.1016/0032-0633(72)90080-3
  5. Cho, Journal of Geophysical Research: Space Physics, 120, 2877 (2015)
  6. Fung Shing F., , Specification of multiple geomagnetic responses to variable solar wind and IMF input, 10.5194/angeo-26-639-2008
  7. Gallagher D. L., Adrian M. L., Liemohn M. W., Origin and evolution of deep plasmaspheric notches : ORIGIN AND EVOLUTION OF PLASMASPHERIC NOTCHES, 10.1029/2004ja010906
  8. Goldstein J., Spiro R. W., Reiff P. H., Wolf R. A., Sandel B. R., Freeman J. W., Lambour R. L., IMF-driven overshielding electric field and the origin of the plasmaspheric shoulder of May 24, 2000 : PLASMASPHERIC SHOULDER OF MAY 24, 2000, 10.1029/2001gl014534
  9. Goldstein J., Sandel B. R., Hairston M. R., Reiff P. H., Control of plasmaspheric dynamics by both convection and sub-auroral polarization stream : PLASMASPHERIC DYNAMICS, 10.1029/2003gl018390
  10. Goldstein J., Coupled response of the inner magnetosphere and ionosphere on 17 April 2002, 10.1029/2004ja010712
  11. Goldstein J., Sandel B. R., Forrester W. T., Thomsen M. F., Hairston M. R., Global plasmasphere evolution 22–23 April 2001, 10.1029/2005ja011282
  12. Horwitz J. L., Comfort R. H., Chappell C. R., A statistical characterization of plasmasphere density structure and boundary locations, 10.1029/ja095ia06p07937
  13. Kwan, Spreadsheets in Education (eJSiE), 3, Article 2 (2009)
  14. Kwon H.-J., Kim K.-H., Jee G., Park J.-S., Jin H., Nishimura Y., Plasmapause location under quiet geomagnetic conditions (K p ≤ 1): THEMIS observations : PLASMAPAUSE LOCATIONS FOR K p ≤ 1, 10.1002/2015gl066090
  15. Lemaire J., Kowalkowski L., The role of plasma interchange motion for the formation of a plasmapause, 10.1016/0032-0633(81)90090-8
  16. Lemaire J. F., Pierrard V., Comparison between two theoretical mechanisms for the formation of the plasmapause and relevant observations, 10.1134/s0016793208050010
  17. Lemaire J. F., Gringauz K. I., Carpenter D. L., Bassolo V., The Earth's Plasmasphere, ISBN:9780511600098, 10.1017/cbo9780511600098
  18. Liu Xu, Liu WenLong, A new plasmapause location model based on THEMIS observations, 10.1007/s11430-014-4844-1
  19. Liu, Journal of Geophysical Research: Space Physics, 120, 10,543 (2015)
  20. McIlwain C.E., A Kp dependent equatorial electric field model, 10.1016/0273-1177(86)90331-5
  21. Moldwin Mark B., A new model of the location of the plasmapause: CRRES results, 10.1029/2001ja009211
  22. Murakami, Journal of Geophysical Research: Space Physics, 121, 11,973 (2016)
  23. Newell P. T., Sotirelis T., Liou K., Meng C.-I., Rich F. J., A nearly universal solar wind-magnetosphere coupling function inferred from 10 magnetospheric state variables : UNIVERSAL COUPLING FUNCTION, 10.1029/2006ja012015
  24. O'Brien T. P., Moldwin M. B., Empirical plasmapause models from magnetic indices : EMPIRICAL PLASMAPAUSE MODELS, 10.1029/2002gl016007
  25. Pierrard V., Cabrera J., Comparisons between EUV/IMAGE observations and numerical simulations of the plasmapause formation, 10.5194/angeo-23-2635-2005
  26. Pierrard Viviane, Cabrera Juan, Dynamical Simulations of Plasmapause Deformations, 10.1007/s11214-006-5670-3
  27. Pierrard V., Lemaire J. F., Development of shoulders and plumes in the frame of the interchange instability mechanism for plasmapause formation : PLASMAPAUSE DEFORMATIONS, 10.1029/2003gl018919
  28. Pierrard V., Stegen K., A three-dimensional dynamic kinetic model of the plasmasphere : 3-D DYNAMIC KINETIC PLASMASPHERE, 10.1029/2008ja013060
  29. Pierrard V., Khazanov G. V., Cabrera J., Lemaire J., Influence of the convection electric field models on predicted plasmapause positions during magnetic storms : PLASMAPAUSE POSITIONS, 10.1029/2007ja012612
  30. Sandel B.R., Goldstein J., Gallagher D.L., Spasojevic M., Extreme Ultraviolet Imager Observations of the Structure and Dynamics of the Plasmasphere, 10.1023/b:spac.0000007511.47727.5b
  31. Sheeley B. W., Moldwin M. B., Rassoul H. K., Anderson R. R., An empirical plasmasphere and trough density model: CRRES observations, 10.1029/2000ja000286
  32. Verbanac G., Vršnak B., Živković S., Hojsak T., Veronig A. M., Temmer M., Solar wind high-speed streams and related geomagnetic activity in the declining phase of solar cycle 23, 10.1051/0004-6361/201116615
  33. Verbanac G., Pierrard V., Bandić M., Darrouzet F., Rauch J.-L., Décréau P., The relationship between plasmapause, solar wind and geomagnetic activity between 2007 and 2011, 10.5194/angeo-33-1271-2015
Bibliographic reference Verbanac, Giuli ; Bandić, Mario ; Pierrard, Viviane ; Cho, Junghee. MLT Plasmapause Characteristics: Comparison Between THEMIS Observations and Numerical Simulations. In: Journal of Geophysical Research: Space Physics, Vol. 123, p. 2000-2017 (2018)
Permanent URL