On 15 Feb. 1978, the orientation of the interplanetary magnetic field (IMF) remained steadily northward for more than 12 hours. The ISEE 1 and 2 spacecraft were located near apogee on the dawn side flank of the magnetotail. IMP 8 was almost symmetrically located in the magnetosheath on the dusk flank and IMP 7 was upstream in the solar wind. Using plasma and magnetic field data, we show the following: (1) the magnetosheath flow speed on the flanks of the magnetotail steadily exceeded the solar wind speed by 20 percent; (2) surface waves with approximately a 5-min period and very non-sinusoidal waveform were persistently present on the dawn magnetopause and waves of similar period were present in the dusk magnetosheath; and (3) the magnetota...
International audienceWe present a follow up study of the sensitivity of the Earth's magnetosphere t...
International audienceWe compare numerical results obtained from a steady-state MHD model of solar w...
Surface waves at the magnetopause flanks typically feature steeper, i.e., more inclined leading (ant...
Previous works have emphasized the significant influence of the solar wind Alfvén Mach number (MA) o...
A key parameter in determining the flow of the solar wind around the magnetosphere is the Alfven Mac...
Copyright © 2013 American Geophysical Union (AGU)Previous works have emphasized the significant infl...
[1] Previous works have emphasized the significant influence of the solar wind Alfvén Mach number (M...
While there are many approximations describing the flow of the solar wind past the magnetosphere in ...
The region near the dayside boundary of the magnetosphere is of particular interest mainly because i...
Observed delays in the ground response to solar wind directional discontinuities have been explained...
While there are many approximations describing the flow of the solar wind past the magnetosphere in ...
Previous observations have shown an approximately 10-15 minute time delay in the ionospheric respons...
We present a case study of a large deformation of the magnetopause on November 26, 2008. The investi...
The magnetosheath functions as a natural interface connecting the interplanetary and magnetospheric ...
Acceleration of magnetosheath plasma resulting from the draping of the interplanetary magnetic field...
International audienceWe present a follow up study of the sensitivity of the Earth's magnetosphere t...
International audienceWe compare numerical results obtained from a steady-state MHD model of solar w...
Surface waves at the magnetopause flanks typically feature steeper, i.e., more inclined leading (ant...
Previous works have emphasized the significant influence of the solar wind Alfvén Mach number (MA) o...
A key parameter in determining the flow of the solar wind around the magnetosphere is the Alfven Mac...
Copyright © 2013 American Geophysical Union (AGU)Previous works have emphasized the significant infl...
[1] Previous works have emphasized the significant influence of the solar wind Alfvén Mach number (M...
While there are many approximations describing the flow of the solar wind past the magnetosphere in ...
The region near the dayside boundary of the magnetosphere is of particular interest mainly because i...
Observed delays in the ground response to solar wind directional discontinuities have been explained...
While there are many approximations describing the flow of the solar wind past the magnetosphere in ...
Previous observations have shown an approximately 10-15 minute time delay in the ionospheric respons...
We present a case study of a large deformation of the magnetopause on November 26, 2008. The investi...
The magnetosheath functions as a natural interface connecting the interplanetary and magnetospheric ...
Acceleration of magnetosheath plasma resulting from the draping of the interplanetary magnetic field...
International audienceWe present a follow up study of the sensitivity of the Earth's magnetosphere t...
International audienceWe compare numerical results obtained from a steady-state MHD model of solar w...
Surface waves at the magnetopause flanks typically feature steeper, i.e., more inclined leading (ant...