Add to ORKGCorotating interaction regions during the declining phase of the solar cycle are the cause of recurrent geomagnetic storms and are responsible for the generation of high fluxes of relativistic electrons. These regions are produced by the collision of a high-speed stream of solar wind with a slow-speed stream. The interface between the two streams is easily identified with plasma and field data from a solar wind monitor upstream of the Earth. The properties of the solar wind and interplanetary magnetic field are systematic functions of time relative to the stream interface. Consequently the coupling of the solar wind to the Earth's magnetosphere produces a predictable sequence of events. Because the streams persist for many solar rotations i...
Context. Coronal holes (CHs) are the source of high-speed streams (HSSs) in the solar wind, whose in...
International audienceThe present study investigates solar events through geomagnetic activity and p...
International audienceThe present study investigates solar events through geomagnetic activity and p...
Solar wind fast streams emanating from solar coronal holes cause recurrent, moderate intensity geoma...
Solar wind fast streams emanating from solar coronal holes cause recurrent, moderate intensity geoma...
We study the properties and geoeffectiveness of solar wind high-speed streams (HSSs) emanating from ...
The understanding of extreme geomagnetic storms is one of the key issues in space weather. Such phen...
Abstract We study the properties and geoeffectiveness of solar wind high‐speed streams (HSSs) emana...
134-137The geomagnetic activity is mainly controlled by variations in the solar wind and interplanet...
The understanding of extreme geomagnetic storms is one of the key issues in space weather. Such phen...
Context. Coronal holes (CHs) are the source of high-speed streams (HSSs) in the solar wind, whose in...
As the prediction of geomagnetic storms is becoming an important and practical problem, conditions i...
Context. Coronal holes (CHs) are the source of high-speed streams (HSSs) in the solar wind, whose in...
Solar wind velocity normally increases to a maximum above 600km/s from a quiet value below 400km/s i...
Context. Coronal holes (CHs) are the source of high-speed streams (HSSs) in the solar wind, whose in...
Context. Coronal holes (CHs) are the source of high-speed streams (HSSs) in the solar wind, whose in...
International audienceThe present study investigates solar events through geomagnetic activity and p...
International audienceThe present study investigates solar events through geomagnetic activity and p...
Solar wind fast streams emanating from solar coronal holes cause recurrent, moderate intensity geoma...
Solar wind fast streams emanating from solar coronal holes cause recurrent, moderate intensity geoma...
We study the properties and geoeffectiveness of solar wind high-speed streams (HSSs) emanating from ...
The understanding of extreme geomagnetic storms is one of the key issues in space weather. Such phen...
Abstract We study the properties and geoeffectiveness of solar wind high‐speed streams (HSSs) emana...
134-137The geomagnetic activity is mainly controlled by variations in the solar wind and interplanet...
The understanding of extreme geomagnetic storms is one of the key issues in space weather. Such phen...
Context. Coronal holes (CHs) are the source of high-speed streams (HSSs) in the solar wind, whose in...
As the prediction of geomagnetic storms is becoming an important and practical problem, conditions i...
Context. Coronal holes (CHs) are the source of high-speed streams (HSSs) in the solar wind, whose in...
Solar wind velocity normally increases to a maximum above 600km/s from a quiet value below 400km/s i...
Context. Coronal holes (CHs) are the source of high-speed streams (HSSs) in the solar wind, whose in...
Context. Coronal holes (CHs) are the source of high-speed streams (HSSs) in the solar wind, whose in...
International audienceThe present study investigates solar events through geomagnetic activity and p...
International audienceThe present study investigates solar events through geomagnetic activity and p...