Add to ORKGThe inner coronagraph (COR1) of the Solar Terrestrial Relations Observatory (STEREO) mission has made it possible to observe CMEs in the spatial domain overlapping with that of the metric type II radio bursts. The type II bursts were associated with generally weak flares (mostly B and C class soft X-ray flares), but the CMEs were quite energetic. Using CME data for a set of type II bursts during the declining phase of solar cycle 23, we determine the CME height when the type II bursts start, thus giving an estimate of the heliocentric distance at which CME-driven shocks form. This distance has been determined to be approx. 1.5Rs (solar radii), which coincides with the distance at which the Alfven speed profile has a minimum value.We also us...
Context. Meter-wavelength type II solar radio bursts are thought to be the signatures of shock-accel...
We study the solar event on 27 September 2001 that consisted of three consecutive coronal mass ejec...
The first appearance of radio type II burst emission at decameter-hectometer (DH) waves typically oc...
International audienceThe inner coronagraph (COR1) of the Solar Terrestrial Relations Observatory (S...
International audienceThe inner coronagraph (COR1) of the Solar Terrestrial Relations Observatory (S...
International audienceThe inner coronagraph (COR1) of the Solar Terrestrial Relations Observatory (S...
Employing coronagraphic and EUV observations close to the solar surface made by the Solar Terrestria...
Coronal mass ejections (CMEs) are responsible for most severe space weather events, such as solar en...
Abstract. We examine a possibility that metric-type II solar radio bursts are all caused by CME gene...
Ground-based observations of metric (coronal) type II radio bursts are compared with observations o...
Ground-based observations of metric (coronal) type II radio bursts are compared with observations o...
We report on a multi-wavelength analysis of the 26 January 2014 solar eruption involving a coronal m...
We report on a multi-wavelength analysis of the 26 January 2014 solar eruption involving a coronal m...
Ground-based observations of metric (coronal) type II radio bursts are compared with observations o...
Aims. We have investigated the relationship between coronal mass ejections (CMEs) and coronal type I...
Context. Meter-wavelength type II solar radio bursts are thought to be the signatures of shock-accel...
We study the solar event on 27 September 2001 that consisted of three consecutive coronal mass ejec...
The first appearance of radio type II burst emission at decameter-hectometer (DH) waves typically oc...
International audienceThe inner coronagraph (COR1) of the Solar Terrestrial Relations Observatory (S...
International audienceThe inner coronagraph (COR1) of the Solar Terrestrial Relations Observatory (S...
International audienceThe inner coronagraph (COR1) of the Solar Terrestrial Relations Observatory (S...
Employing coronagraphic and EUV observations close to the solar surface made by the Solar Terrestria...
Coronal mass ejections (CMEs) are responsible for most severe space weather events, such as solar en...
Abstract. We examine a possibility that metric-type II solar radio bursts are all caused by CME gene...
Ground-based observations of metric (coronal) type II radio bursts are compared with observations o...
Ground-based observations of metric (coronal) type II radio bursts are compared with observations o...
We report on a multi-wavelength analysis of the 26 January 2014 solar eruption involving a coronal m...
We report on a multi-wavelength analysis of the 26 January 2014 solar eruption involving a coronal m...
Ground-based observations of metric (coronal) type II radio bursts are compared with observations o...
Aims. We have investigated the relationship between coronal mass ejections (CMEs) and coronal type I...
Context. Meter-wavelength type II solar radio bursts are thought to be the signatures of shock-accel...
We study the solar event on 27 September 2001 that consisted of three consecutive coronal mass ejec...
The first appearance of radio type II burst emission at decameter-hectometer (DH) waves typically oc...