Add to ORKGNonlinear electron whistler mode wave particle interactions in the near earth magnetosphere suggest several candidate mechanisms for phase space diffusion of electrons into the loss cone to provide a source of auroral precipitating electrons. A unidirectional whistler mode wave propagating parallel to the background magnetic field and interacting with an electron can be shown to produce resonance (trapping of electrons) but the process is not stochastic. Chaos can be introduced by resonance between electrons that mirror many times in the earth's field, and a whistler wavefield. Here, we show that an electron interacting with two oppositely directed, parallel propagating whistler mode waves exhibits stochastic behaviour in addition to resona...
Whistler mode waves are critical emissions in magnetized plasmas that usually influence the electron...
International audienceAbstract The role of whistler-mode waves in the solar wind and the relationshi...
International audienceResonances with electromagnetic whistler-mode waves are the primary driver for...
In the Earth's magnetosphere, electron-whistler mode wave-particle interactions are a candidate mech...
During periods of increased magnetospheric activity, whistler wave emissions have been observed with...
Using numerical solutions of single-particle dynamics, we consider a chaotic electron-whistler inter...
Whistler waves play an important role in the scattering of energetic electrons in the Earth's magnet...
International audienceWe analyze Magnetospheric Multiscale Mission observations of whistler waves an...
International audienceWhistler mode chorus waves are particularly important in outer radiation belt ...
Previous studies suggest that interactions between a single electron and two oppositely directed, wh...
International audienceWhistler-mode waves have been observed at the subsolar magnetopause in associa...
The Earth's magnetosheath (MSH) is governed by numerous physical processes which shape the particle ...
Whistler-mode waves play an important role in pitch-angle scattering of electrons in the Earth's mag...
International audienceWave-particle interactions can play a key role in the process of transfer of e...
Whistler mode waves are critical emissions in magnetized plasmas that usually influence the electron...
International audienceAbstract The role of whistler-mode waves in the solar wind and the relationshi...
International audienceResonances with electromagnetic whistler-mode waves are the primary driver for...
In the Earth's magnetosphere, electron-whistler mode wave-particle interactions are a candidate mech...
During periods of increased magnetospheric activity, whistler wave emissions have been observed with...
Using numerical solutions of single-particle dynamics, we consider a chaotic electron-whistler inter...
Whistler waves play an important role in the scattering of energetic electrons in the Earth's magnet...
International audienceWe analyze Magnetospheric Multiscale Mission observations of whistler waves an...
International audienceWhistler mode chorus waves are particularly important in outer radiation belt ...
Previous studies suggest that interactions between a single electron and two oppositely directed, wh...
International audienceWhistler-mode waves have been observed at the subsolar magnetopause in associa...
The Earth's magnetosheath (MSH) is governed by numerous physical processes which shape the particle ...
Whistler-mode waves play an important role in pitch-angle scattering of electrons in the Earth's mag...
International audienceWave-particle interactions can play a key role in the process of transfer of e...
Whistler mode waves are critical emissions in magnetized plasmas that usually influence the electron...
International audienceAbstract The role of whistler-mode waves in the solar wind and the relationshi...
International audienceResonances with electromagnetic whistler-mode waves are the primary driver for...