Add to ORKGNew models for the size and shape of the Earth’s magnetopause and bow shock are derived, based on a criterion for selecting the crossing events and their corresponding up-stream solar wind parameters. In this study, we emphasize the importance of accurate interplanetary parameters for predicting the size and shape of the magnetopause and bow shock. The time lag of the solar wind between the solar wind monitor and the location of crossings is carefully considered, ensuring more reliable up-stream solar wind parameters. With this database new functional forms for the magnetopause and bow shock surfaces are deduced. In this paper, we briefly present the preliminary results. For a given up-stream solar wind dynamic pressure Dp, an IMF north–sou...
A theoretical model is proposed for the interaction of a plane discontinuity in the solar wind with ...
Earth's bow shock changes its three-dimensional (3-D) location in response to changes in the solar w...
viii Title: Dynamics of the bow shock and magnetopause Author: Karel Jelínek Department: Department ...
The magnetopause (MP) and bow shock (BS) play an important role in protecting the Earth from the har...
We have used the AMR-CESE-MHD model to investigate the influences of the IMF Bz and the upstream sol...
We have used the AMR-CESE-MHD model to investigate the influences of the IMF Bz and the upstream sol...
In studies of physical processes near planetary bow shocks, empirical models of the latter are usual...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
A theoretical model is proposed for the interaction of a plane discontinuity in the solar wind with ...
Earth's bow shock changes its three-dimensional (3-D) location in response to changes in the solar w...
viii Title: Dynamics of the bow shock and magnetopause Author: Karel Jelínek Department: Department ...
The magnetopause (MP) and bow shock (BS) play an important role in protecting the Earth from the har...
We have used the AMR-CESE-MHD model to investigate the influences of the IMF Bz and the upstream sol...
We have used the AMR-CESE-MHD model to investigate the influences of the IMF Bz and the upstream sol...
In studies of physical processes near planetary bow shocks, empirical models of the latter are usual...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
International audienceMagnetic clouds (MCs) are very geoeffective solar wind structures. Their prope...
A theoretical model is proposed for the interaction of a plane discontinuity in the solar wind with ...
Earth's bow shock changes its three-dimensional (3-D) location in response to changes in the solar w...
viii Title: Dynamics of the bow shock and magnetopause Author: Karel Jelínek Department: Department ...