Add to ORKGObserved spatial- and frequency-domain signatures of the most intense solar wind Langmuir waves can be described as localized, discrete-frequency eigenmodes trapped in a parabolic density fluctuation. Electric field waveforms from spacecraft in the solar wind are compared with one- and three-dimensional solutions and, in many cases, can be represented by 1-3 of the lowest order eigenmodes. The spatial scale of eigenmode wave packets is on the order of tens of Langmuir wavelengths, allowing them to draw energy directly from the unstable electron distributions associated with a solar type III radio bursts and implying that Langmuir waves can grow in a strongly inhomogeneous medium. The currents generated by localized Langmuir eigenmodes emit ...
Solar electron beams responsible for type III radio emission generate Langmuir waves as they propaga...
International audienceThe generation of Langmuir wave turbulence by a weak electron beam in a random...
International audienceIt is known from in situ observations that large-amplitude spatially localized...
Observed spatial- and frequency-domain signatures of the most intense solar wind Langmuir waves can ...
International audienceWe show that observed spatial- and frequency-domain signatures of intense sola...
Many plasma processes in the solar wind with macroscopic consequences involve interactions at or bel...
[1] Spacecraft observations of beat-like Langmuir waveforms on two orthogonal antennas in Earth’s fo...
Aims. We investigate the dynamics of spectra of Langmuir waves in the plasma radiation of solar radi...
Context. Langmuir waves (electrostatic waves near the electron plasma frequency) are often observed ...
International audienceLangmuir waves are ubiquitous in the planetary environments and the interplane...
International audienceSolar radio emissions of the type III are between the most intense in the sola...
Langmuir waves and turbulence resulting from an electron beam-plasma instability play a fundamental ...
Solar electron beams responsible for type III radio emission generate Langmuir waves as they propaga...
International audienceThe generation of Langmuir wave turbulence by a weak electron beam in a random...
International audienceIt is known from in situ observations that large-amplitude spatially localized...
Observed spatial- and frequency-domain signatures of the most intense solar wind Langmuir waves can ...
International audienceWe show that observed spatial- and frequency-domain signatures of intense sola...
Many plasma processes in the solar wind with macroscopic consequences involve interactions at or bel...
[1] Spacecraft observations of beat-like Langmuir waveforms on two orthogonal antennas in Earth’s fo...
Aims. We investigate the dynamics of spectra of Langmuir waves in the plasma radiation of solar radi...
Context. Langmuir waves (electrostatic waves near the electron plasma frequency) are often observed ...
International audienceLangmuir waves are ubiquitous in the planetary environments and the interplane...
International audienceSolar radio emissions of the type III are between the most intense in the sola...
Langmuir waves and turbulence resulting from an electron beam-plasma instability play a fundamental ...
Solar electron beams responsible for type III radio emission generate Langmuir waves as they propaga...
International audienceThe generation of Langmuir wave turbulence by a weak electron beam in a random...
International audienceIt is known from in situ observations that large-amplitude spatially localized...