Add to ORKGInternational audienceWe use the first measurements of the STAFF/DWP instrument on the Double Star TC-1 spacecraft to investigate whistler-mode chorus. We present initial results of a systematic study on radial variation of dawn chorus. The chorus events show an increased intensity at L parameter above 6. This is important for the possible explanation of intensifications of chorus, which were previously observed closer to the Earth at higher latitudes. Our results also indicate that the upper band of chorus at frequencies above one-half of the electron cyclotron frequency disappears for L above 8. The lower band of chorus is observed at frequencies below 0.4 of the electron cyclotron frequency up to L of 11-12. The maxima of the chorus powe...
International audienceIn this case study we investigate the source region of whistler-mode chorus lo...
International audienceWhistler-mode chorus is one of the most intense electromagnetic wave emissions...
Chorus emission is one of the most intense electromagnetic waves. Its source region is localised clo...
We use the first measurements of the STAFF/DWP instrument on the Double Star TC-1 spacecraft to inve...
International audienceWe use the first measurements of the STAFF/DWP instrument on the Double Star T...
This review summarizes selected recent results obtained during investigation of whistler-mode chorus...
International audienceWe present a study of the spatio-temporal characteristics of banded whistler-m...
Characteristics of banded whistler-mode emissions are derived from a database of chorus-like events...
International audienceWhistler-mode chorus emissions are known for their capacity to interact with e...
International audience[1] We use multicomponent measurements of the four Cluster spacecraft and a ba...
International audience[1] Bell et al. (2009) proposed that the source region for banded chorus consi...
International audienceDucted propagation of whistler waves in the terrestrial magnetosphere-ionosphe...
International audienceIn this case study we investigate the source region of whistler-mode chorus lo...
International audienceWhistler-mode chorus is one of the most intense electromagnetic wave emissions...
Chorus emission is one of the most intense electromagnetic waves. Its source region is localised clo...
We use the first measurements of the STAFF/DWP instrument on the Double Star TC-1 spacecraft to inve...
International audienceWe use the first measurements of the STAFF/DWP instrument on the Double Star T...
This review summarizes selected recent results obtained during investigation of whistler-mode chorus...
International audienceWe present a study of the spatio-temporal characteristics of banded whistler-m...
Characteristics of banded whistler-mode emissions are derived from a database of chorus-like events...
International audienceWhistler-mode chorus emissions are known for their capacity to interact with e...
International audience[1] We use multicomponent measurements of the four Cluster spacecraft and a ba...
International audience[1] Bell et al. (2009) proposed that the source region for banded chorus consi...
International audienceDucted propagation of whistler waves in the terrestrial magnetosphere-ionosphe...
International audienceIn this case study we investigate the source region of whistler-mode chorus lo...
International audienceWhistler-mode chorus is one of the most intense electromagnetic wave emissions...
Chorus emission is one of the most intense electromagnetic waves. Its source region is localised clo...