Comprehensive study of the magnetospheric response to a hot flow anomaly
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David G. Sibeck | Kiyohumi Yumoto | C. J. Owen | Hermann Lühr | Susumu Kokubun | Steven J. Schwartz | S. A. Romanov | Howard J. Singer | Robert P. Lin | R. P. Lepping | George K. Parks | R. L. Kessel | J.-A. Sauvaud | Kan Liou | Ching I. Meng | G. N. Zastenker | N. L. Borodkova | Adam Szabo | C. Owen | J. Sauvaud | S. Schwartz | T. Mukai | H. Lühr | C. Meng | Kazue Takahashi | H. Singer | G. Parks | A. Szabo | R. Lin | R. Lepping | D. Sibeck | Donald J. Williams | R. Mcentire | T. Phan | K. Yumoto | Z. Němeček | S. Kokubun | K. Liou | Kazue Takahashi | N. Borodkova | T. D. Phan | Tadashi Mukai | Jana Safrankova | R. W. McEntire | S. Romanov | J. Šafránková | R. Kessel | G. Zastenker | Zdenek Nemecek | S. I. Solovyev | S. Solovyev
[1] U. Motschmann,et al. Shock normal determination for multiple‐ion shocks , 1994 .
[2] H. Fukunishi,et al. Local time asymmetries of the SSC-associated hydromagnetic variations at the geosynchronous altitude , 1985 .
[3] F. Mariani,et al. The WIND magnetic field investigation , 1995 .
[4] Wolfgang Baumjohann,et al. The magnetopause for large magnetic shear: AMPTE/IRM observations , 1986 .
[5] W. J. Burke,et al. Ground and satellite observations of postdawn aurorae near the time of a sudden storm commencement , 1994 .
[6] Douglas G. Torr,et al. Use of FUV auroral emissions as diagnostic indicators , 1994 .
[7] J. Scudder,et al. Fast and optimal solution to the 'Rankine-Hugoniot problem'. [for geometrical shock wave properties, conservation constants and self-consistent asymptotic magnetofluid variables of interplanetary medium] , 1986 .
[8] Muamer Zukic,et al. A far ultraviolet imager for the International Solar-Terrestrial Physics Mission , 1995 .
[9] G. Perona. Theory on the precipitation of magnetospheric electrons at the time of a sudden commencement , 1972 .
[10] L. J. Cahill,et al. Magnetopause structure and attitude from Explorer 12 observations. , 1967 .
[11] R. Kaufmann,et al. EXPLORER 12 MAGNETOPAUSE OBSERVATIONS: LARGE-SCALE NONUNIFORM MOTION. , 1969 .
[12] D. Sibeck,et al. Occurrence patterns for transient magnetic field signatures at high latitudes , 1996 .
[13] C. Russell,et al. Hot, diamagnetic cavities upstream from the Earth's bow shock , 1986 .
[14] E. W. Hones,et al. Structure of the low‐latitude boundary layer , 1980 .
[15] S. Wing,et al. A new magnetic coordinate system for conjugate studies at high latitudes , 1989 .
[16] George K. Parks,et al. Synoptic auroral distribution: A survey using Polar ultraviolet imagery , 1997 .
[17] T. Moore,et al. MHD wave breaking in the outer plasmasphere , 1987 .
[18] Nobuyuki Kaya,et al. The Low Energy Particle (LEP) Experiment onboard the GEOTAIL Satellite , 1994 .
[19] Wolfgang Baumjohann,et al. Upstream pressure variations associated with the bow shock and their effects on the magnetosphere , 1990 .
[20] D. Sibeck. A model for the transient magnetospheric response to sudden solar wind dynamic pressure variations , 1990 .
[21] S. Schwartz,et al. An active current sheet in the solar wind , 1985, Nature.
[22] A. Ridley,et al. Multi‐instrument analysis of the ionospheric signatures of a hot flow anomaly occurring on July 24, 1996 , 1998 .
[23] Edward J. Smith,et al. Comparison of ISEE‐1 and ‐3 interplanetary magnetic field observations , 1980 .
[24] J. Sauvaud,et al. Gross deformation of the dayside magnetopause , 1998 .
[25] L. Burlaga. Directional discontinuities in the interplanetary magnetic field , 1969 .
[26] D. Sibeck. Transient magnetic field signatures at high latitudes , 1993 .
[27] C. R. Clauer,et al. Ionospheric traveling convection vortices observed near the polar cleft: A triggered response to sudden changes in the solar wind , 1988 .
[28] A. Summers,et al. Hydromagnetic flow around the magnetosphere , 1966 .
[29] K. Yumoto. Initial Results from the 210° Magnetic Meridian Project-Review , 1995 .
[30] M. Dunlop,et al. Active current sheets near the Earth's bow shock , 1988 .
[31] A. Szabo,et al. A case study of oppositely propagating Alfvénic fluctuations in the solar wind and magnetosheath , 1997 .
[32] D. Sibeck,et al. A case study of transient event motion in the magnetosphere and in the ionosphere , 1995 .
[33] S. Schwartz. Hot flow anomalies near the Earth's bow shock , 1995 .
[34] J. M. Bosqued,et al. A three-dimensional plasma and energetic particle investigation for the wind spacecraft , 1995 .
[35] Wolfgang Baumjohann,et al. The Magnetospheric Response to 8-Minute Period Strong-Amplitude Upstream Pressure Variations , 1989 .
[36] D. Sibeck,et al. Magnetospheric plasma flows associated with boundary waves and flux transfer events , 1992 .
[37] G. Haerendel,et al. Three-dimensional plasma structures with anomalous flow directions near the Earth's bow shock , 1988 .
[38] Edward J. Smith,et al. Power spectra and discontinuities of the interplanetary magnetic field - Mariner 4. , 1968 .
[39] A. Fedorov,et al. Structure of the low-latitude magnetopause: MAGION-4 observations , 1997 .
[40] R. Winglee,et al. Auroral activity associated with pressure pulses and substorms: A comparison between global fluid modeling and Viking UV imaging , 1998 .
[41] K. Glassmeier,et al. Ground-based and satellite observations of traveling magnetospheric convection twin vortices , 1989 .
[42] L. Přech,et al. Small scale observation of magnetopause motion: preliminary results of the INTERBALL project , 1997 .
[43] R. Daniell,et al. Transport-theoretic model for the electron-proton-hydrogen atom aurora: 2. Model results , 1993 .
[44] Richard W. McEntire,et al. Geotail energetic particles and ion composition instrument , 1994 .
[45] C. Russell,et al. Global auroral responses to magnetospheric compressions by shocks in the solar wind: Two case studies , 1986 .
[46] Richard Grubb,et al. Monitoring space weather with the GOES magnetometers , 1996, Optics & Photonics.
[47] J. Rouzaud,et al. The INTERBALL-Tail ELECTRON experiment: initial results on the low-latitude boundary layer of the dawn magnetosphere , 1997 .
[48] C. Russell,et al. On the origin of hot diamagnetic cavities near the Earth's bow shock , 1988 .
[49] R. Kaufmann. Shock observations with the Explorer 12 magnetometer , 1967 .
[50] G. Siscoe,et al. Magnetopause motions at lunar distance determined from the Explorer 35 Plasma Experiment , 1972 .
[51] D. H. Fairfield,et al. Average and unusual locations of the Earth's magnetopause and bow shock , 1971 .
[52] J. Šimůnek,et al. Two point observation of magnetopause motion: The INTERBALL project , 1997 .
[53] Hideaki Kawano,et al. The GEOTAIL Magnetic Field Experiment. , 1994 .
[54] David G. Sibeck,et al. Magnetopause shape as a bivariate function of interplanetary magnetic field Bz and solar wind dynamic pressure , 1993 .
[55] K. W. Behannon,et al. Magnetic field directional discontinuities: 1. Minimum variance errors , 1979 .
[56] Yu Lin. Generation of anomalous flows near the bow shock by its interaction with interplanetary discontinuities , 1997 .
[57] C. Russell,et al. Observational test of hot flow anomaly formation by the interaction of a magnetic discontinuity with the bow shock , 1993 .
[58] D. Sibeck,et al. Dayside auroral activities and their implications for impulsive entry processes in the dayside magnetosphere , 1991 .
[59] M. Kivelson,et al. The Magnetohydrodynamic Response of the Magnetospheric Cavity to Changes in Solar Wind Pressure , 1990 .
[60] M. Parrot,et al. ASPI experiment: measurements of fields and waves on board the INTERBALL-1 spacecraft , 1997 .
[61] J. Gosling,et al. Magnetosheath density fluctuations and magnetopause motion , 1996 .
[62] M. Thomsen,et al. Hybrid simulation of the formation of a hot flow anomaly , 1991 .