Add to ORKGChorus-like whistler-mode waves that are known to play a fundamental role in driving radiation-belt dynamics are excited on the Large Plasma Device by the injection of a helical electron beam into a cold plasma. The mode structure of the excited whistler wave is identified using a phase-correlation technique showing that the waves are excited through a combination of Landau resonance, cyclotron resonance and anomalous cyclotron resonance. The dominant wave mode excited through cyclotron resonance is quasi-parallel propagating, whereas wave modes excited through Landau resonance and anomalous cyclotron resonance propagate at oblique angles that are close to the resonance cone. An analysis of the linear wave growth rates captures the major ob...
241-252The last forty years have seen remarkable developments in our understanding of the Doppler-s...
International audienceWhistler-mode waves have been observed at the subsolar magnetopause in associa...
International audienceUpward-moving energetic electrons with energies of 1 MeV and above were observ...
Chorus-like whistler-mode waves that are known to play a fundamental role in driving radiation-belt ...
This dissertation presents a study of wave-particle interactions in space and in the laboratory. To ...
International audienceThe whistler-mode waves and electron temperature anisotropy play a key role pr...
International audienceWhistler mode chorus waves are particularly important in outer radiation belt ...
Whistler waves are often observed in magnetopause reconnection associated with electron beams. We an...
Abstract. Whistler waves are produced when beam electrons, produced by a lightning strike near one o...
We report observations of the whistler mode waves in the magnetic reconnection region at the dayside...
International audienceIn the magnetosheath, intense whistler mode waves, called “Lion roars,” are of...
Electron acoustic waves (EAWs), as well as electron-acoustic solitary structures, play a crucial rol...
International audienceWe analyze Magnetospheric Multiscale Mission observations of whistler waves an...
With a one‐dimensional particle‐in‐cell simulation model, we have investigated the gap formation aro...
241-252The last forty years have seen remarkable developments in our understanding of the Doppler-s...
International audienceWhistler-mode waves have been observed at the subsolar magnetopause in associa...
International audienceUpward-moving energetic electrons with energies of 1 MeV and above were observ...
Chorus-like whistler-mode waves that are known to play a fundamental role in driving radiation-belt ...
This dissertation presents a study of wave-particle interactions in space and in the laboratory. To ...
International audienceThe whistler-mode waves and electron temperature anisotropy play a key role pr...
International audienceWhistler mode chorus waves are particularly important in outer radiation belt ...
Whistler waves are often observed in magnetopause reconnection associated with electron beams. We an...
Abstract. Whistler waves are produced when beam electrons, produced by a lightning strike near one o...
We report observations of the whistler mode waves in the magnetic reconnection region at the dayside...
International audienceIn the magnetosheath, intense whistler mode waves, called “Lion roars,” are of...
Electron acoustic waves (EAWs), as well as electron-acoustic solitary structures, play a crucial rol...
International audienceWe analyze Magnetospheric Multiscale Mission observations of whistler waves an...
With a one‐dimensional particle‐in‐cell simulation model, we have investigated the gap formation aro...
241-252The last forty years have seen remarkable developments in our understanding of the Doppler-s...
International audienceWhistler-mode waves have been observed at the subsolar magnetopause in associa...
International audienceUpward-moving energetic electrons with energies of 1 MeV and above were observ...