Add to ORKGUsing numerical solutions of single-particle dynamics, we consider a chaotic electron-whistler interaction mechanism for enhanced diffusion in phase space. This process, when applied to parameters consistent with the Jovian magnetosphere, is a candidate mechanism for pitch angle scattering in the Io torus, thus providing a source of auroral precipitating electrons. We initially consider the interaction between two oppositely directed monochromatic whistler mode waves. We generalize previous work to include relativistic effects. The full relativistic Lorentz equations are solved numerically to permit application to a more extensive parameter space. We use this simplified case to study the underlying behaviour of the system. For large-amplitu...
We present the first relativistic electron pitch-angle and momentum diffusion rates for scattering b...
We present self-consistent Particle-in-Cell simulations of the resonant interactions between anisotr...
This dissertation presents a study of wave-particle interactions in space and in the laboratory. To ...
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...
Nonlinear electron whistler mode wave particle interactions in the near earth magnetosphere suggest ...
Previous studies suggest that interactions between a single electron and two oppositely directed, wh...
This is the author accepted manuscript. The final version is available from Cambridge University Pre...
The path-integrated gain of parallel propagating whistlers driven unstable by an anisotropic distrib...
We evaluate the energetic electron scattering and acceleration due to whistler mode chorus waves usi...
International audienceUpward-moving energetic electrons with energies of 1 MeV and above were observ...
Nonlinear interactions of charged particles and large-amplitude waves have a signif- icant impact on...
International audienceResonances with electromagnetic whistler-mode waves are the primary driver for...
The role of plasma waves in shaping the intense Jovian radiation belts is not well understood. In th...
Modulated high-frequency (HF) heating of the ionosphere provides a feasible means of artificially ge...
We present the first relativistic electron pitch-angle and momentum diffusion rates for scattering b...
We present self-consistent Particle-in-Cell simulations of the resonant interactions between anisotr...
This dissertation presents a study of wave-particle interactions in space and in the laboratory. To ...
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...
Nonlinear electron whistler mode wave particle interactions in the near earth magnetosphere suggest ...
Previous studies suggest that interactions between a single electron and two oppositely directed, wh...
This is the author accepted manuscript. The final version is available from Cambridge University Pre...
The path-integrated gain of parallel propagating whistlers driven unstable by an anisotropic distrib...
We evaluate the energetic electron scattering and acceleration due to whistler mode chorus waves usi...
International audienceUpward-moving energetic electrons with energies of 1 MeV and above were observ...
Nonlinear interactions of charged particles and large-amplitude waves have a signif- icant impact on...
International audienceResonances with electromagnetic whistler-mode waves are the primary driver for...
The role of plasma waves in shaping the intense Jovian radiation belts is not well understood. In th...
Modulated high-frequency (HF) heating of the ionosphere provides a feasible means of artificially ge...
We present the first relativistic electron pitch-angle and momentum diffusion rates for scattering b...
We present self-consistent Particle-in-Cell simulations of the resonant interactions between anisotr...
This dissertation presents a study of wave-particle interactions in space and in the laboratory. To ...