Observations of magnetospheric convection from low altitudes
暂无分享,去创建一个
[1] D. Gurnett,et al. The theta aurora , 1986 .
[2] L. Lyons. A simple model for polar cap convection patterns and generation of θ auroras , 1985 .
[3] R. Heelis. Interplanetary Magnetic Field Effects on High Latitude Ionospheric Convection , 1985 .
[4] A. Lui,et al. By -dependent convection patterns during northward interplanetary magnetic field , 1984 .
[5] Wolfgang Baumjohann,et al. Ionospheric and Birkeland current distributions for northward interplanetary magnetic field: Inferred polar convection , 1984 .
[6] W.K. (Bill) Peterson,et al. Origin of the plasma in a cross‐polar cap auroral feature (theta aurora) , 1984 .
[7] R. Heelis,et al. Rocket and satellite observations of electric fields and ion convection in the dayside auroral ionosphere , 1984 .
[8] R. Heelis. The effects of interplanetary magnetic field orientation on dayside high‐latitude ionospheric convection , 1984 .
[9] F. Mozer. Electric field evidence on the viscous interaction at the magnetopause , 1984 .
[10] T. Aurora. Origin of the Plasma in a Cross-Polar Cap Auroral Feature , 1984 .
[11] R. Heelis,et al. Multistation measurements of high‐latitude ionospheric convection , 1983 .
[12] S. Akasofu,et al. On the rotation of the polar cap potential pattern and associated polar phenomena , 1983 .
[13] F. Mozer,et al. Comparison of S3-3 polar cap potential drops with the interplanetary magnetic field and models of magnetopause reconnection , 1983 .
[14] J. Foster. An empirical electric field model derived from Chatanika radar data , 1983 .
[15] T. Hill. Solar-Wind Magnetosphere Coupling , 1983 .
[16] John D. Craven,et al. Polar views of the Earth's aurora with Dynamics Explorer , 1982 .
[17] L. J. Cahill,et al. Initial results on the correlation between the magnetic and electric fields observed from the DE‐2 satellite in the field‐aligned current regions , 1982 .
[18] R. W. Spiro,et al. A model of the high‐latitude ionospheric convection pattern , 1982 .
[19] P. Reiff. Sunward convection in both polar caps , 1982 .
[20] R. Heelis. The polar ionosphere , 1982 .
[21] R. W. Spiro,et al. Dependence of polar cap potential drop on interplanetary parameters , 1981 .
[22] R. Schunk,et al. Plasma density features associated with strong convection in the winter high-latitude F region , 1981 .
[23] B. V. Rezhenov. Convection at high latitudes when the interplanetary magnetic field is northward , 1981 .
[24] F. Primdahl,et al. Reply [to “Comment on ‘Longitudinal position of polar cap plasma flow entry region’ by F. Primdahl, Inge S. Primdahl, and F. Spangslev”] , 1981 .
[25] T. Jørgensen. Comment on ‘Longitudinal position of polar cap plasma flow entry region’ by F. Primdahl, Inge S. Primdahl, and F. Spangslev , 1981 .
[26] S. Cowley. Magnetospheric and ionospheric flow and the interplanetary magnetic field , 1981 .
[27] W. J. Burke,et al. Effects of high‐latitude conductivity on observed convection electric fields and Birkeland currents , 1980 .
[28] G. D. Sanders,et al. Observation of the plasma boundary layer at lunar distances - Direct injection of plasma into the plasma sheet , 1980 .
[29] G. Haerendel,et al. Electric fields in the dayside auroral oval , 1980 .
[30] R. Heelis,et al. High-latitude ion convection in the nighttime F region , 1980 .
[31] F. Primdahl,et al. COMMENT ON 'LONGITUDINAL POSITION OF POLAR CAP PLASMA FLOW ENTRY REGION' , 1980 .
[32] P. Reiff. Low-altitude signatures of the boundary layers , 1979 .
[33] W. J. Burke,et al. Polar cap electric field structures with a northward interplanetary magnetic field , 1979 .
[34] N. A. Saflekos,et al. Large-scale characteristics of Birkeland currents , 1979 .
[35] R. Heelis,et al. IMF Changes and Polar-Cap Electric Fields and Currents , 1979 .
[36] S. Akasofu. Dynamics of the Magnetosphere , 1979 .
[37] J. Burrows,et al. Magnetic field perturbations in the dayside cleft and their relationship to the IMF , 1978 .
[38] L. H. Brace,et al. The high‐latitude winter F region at 300 km: Thermal plasma observations from AE‐C , 1978 .
[39] R. Heelis,et al. Ion convection and the formation of the mid‐latitude F region ionization trough , 1978 .
[40] H. Volland. A model of the magnetospheric electric convection field , 1978 .
[41] R. Heelis,et al. Dayside auroral arcs and convection , 1978 .
[42] T. Hill,et al. Evidence of magnetospheric cusp proton acceleration by magnetic merging at the dayside magnetopause , 1977 .
[43] J. Heppner. Empirical models of high latitude electric fields , 1977 .
[44] T. Hill,et al. Solar wind plasma injection at the dayside magnetospheric cusp , 1977 .
[45] R. Heelis,et al. Ion convection velocity reversals in the dayside cleft , 1976 .
[46] K. Maezawa. Magnetospheric convection induced by the positive and negative Z components of the interplanetary magnetic field: Quantitative analysis using polar cap magnetic records , 1976 .
[47] E. E. Budzinski,et al. Particle properties in the day side cleft , 1976 .
[48] S. Cowley. A qualitative study of the reconnection between the Earth's magnetic field and an interplanetary field of arbitrary orientation , 1973 .
[49] D. Stern. A study of the electric field in an open magnetospheric model , 1973 .
[50] C. Russell,et al. Comments on a paper by J. P. Heppner, ‘Polar cap electric field distributions related to interplanetary magnetic field direction’ , 1973 .
[51] L. Svalgaard. Polar cap magnetic variations and their relationship with the interplanetary magnetic sector structure , 1973 .
[52] J. Heppner. Polar‐cap electric field distributions related to the interplanetary magnetic field direction , 1972 .
[53] D. Gurnett,et al. Satellite measurements of high latitude convection electric fields , 1972 .
[54] C. O. Hines,et al. A UNIFYING THEORY OF HIGH-LATITUDE GEOPHYSICAL PHENOMENA AND GEOMAGNETIC STORMS , 1961 .
[55] J. Dungey. Interplanetary Magnetic Field and the Auroral Zones , 1961 .