Acceleration of magnetosheath plasma resulting from the draping of the interplanetary magnetic field (IMF) around the magnetosphere can give rise to flow speeds that exceed that of the solar wind (VSW) by up to ~60%. Three case event studies out of 34 identified events are described. We then present a statistical study of draping-related accelerations in the magnetosheath. Further, we compare the results with the recent theory of Erkaev et al. (2011, 2012). We present a methodology to help distinguish draping-related accelerations from those caused by magnetic reconnection. To rule out magnetopause reconnection at low latitudes, we focus mainly on the positive Bz phase during the passage of interplanetary coronal mass ejections (ICMEs), as ...
Magnetosheath jets travel from the bow shock toward the magnetopause, and some of them eventually im...
International audienceThis paper presents in situ observational evidence from the Cluster Ion Spectr...
Magnetosheath jets travel from the bow shock toward the magnetopause, and some of them eventually im...
A key parameter in determining the flow of the solar wind around the magnetosphere is the Alfven Mac...
International audienceWhen the interplanetary magnetic field (IMF) encounters the Earth's magnetosph...
On 15 Feb. 1978, the orientation of the interplanetary magnetic field (IMF) remained steadily northw...
Magnetosheath jets are localized regions of plasma that move faster towards the Earth than the surro...
The magnetosheath functions as a natural interface connecting the interplanetary and magnetospheric ...
We apply a semianalytic magnetohydrodynamic approach to describe effects in the nightside magnetoshe...
pen A ccess Observational aspects of IMF draping-related magnetosheath accelerations for northward I...
International audienceOrientations of the observed magnetic field in Earth's dayside magnetosheath a...
While there are many approximations describing the flow of the solar wind past the magnetosphere in ...
Copyright © 2013 American Geophysical Union (AGU)Previous works have emphasized the significant infl...
The magnetosheath plays a central role in the solar wind-magnetospheric coupling. Yet the effects of...
Magnetosheath jets constitute a significant coupling effect between the solar wind (SW) and the magn...
Magnetosheath jets travel from the bow shock toward the magnetopause, and some of them eventually im...
International audienceThis paper presents in situ observational evidence from the Cluster Ion Spectr...
Magnetosheath jets travel from the bow shock toward the magnetopause, and some of them eventually im...
A key parameter in determining the flow of the solar wind around the magnetosphere is the Alfven Mac...
International audienceWhen the interplanetary magnetic field (IMF) encounters the Earth's magnetosph...
On 15 Feb. 1978, the orientation of the interplanetary magnetic field (IMF) remained steadily northw...
Magnetosheath jets are localized regions of plasma that move faster towards the Earth than the surro...
The magnetosheath functions as a natural interface connecting the interplanetary and magnetospheric ...
We apply a semianalytic magnetohydrodynamic approach to describe effects in the nightside magnetoshe...
pen A ccess Observational aspects of IMF draping-related magnetosheath accelerations for northward I...
International audienceOrientations of the observed magnetic field in Earth's dayside magnetosheath a...
While there are many approximations describing the flow of the solar wind past the magnetosphere in ...
Copyright © 2013 American Geophysical Union (AGU)Previous works have emphasized the significant infl...
The magnetosheath plays a central role in the solar wind-magnetospheric coupling. Yet the effects of...
Magnetosheath jets constitute a significant coupling effect between the solar wind (SW) and the magn...
Magnetosheath jets travel from the bow shock toward the magnetopause, and some of them eventually im...
International audienceThis paper presents in situ observational evidence from the Cluster Ion Spectr...
Magnetosheath jets travel from the bow shock toward the magnetopause, and some of them eventually im...