Abstract
Abstract. It is known from laboratory plasma experiments that double layers (DLs) radiate in the electromagnetic spectrum; but this is only known qualitatively. In these experiments, it was shown that the electron beam created on the high-potential side of a DL generates nonlinear structures which couple to electromagnetic waves and act as a sender antenna. In the Earth auroral region, observations performed by auroral spacecraft have shown that DLs occur naturally in the source region of intense radio emissions called auroral kilometric radiation (AKR). Very high time-, spatial-, and temporal-resolution measurements are needed in order to characterize waves and particle distributions in the vicinity of DLs, which are moving transient structures. We report observations from the FAST satellite of a localized large-amplitude parallel electric field (∼ 300 mV m−1) recorded at the edges of the auroral density cavity. In agreement with laboratory experiments, on the high-potential side of the DL, elementary radiation events are detected. They occur substantially above the local electron gyrofrequency and are associated with the presence of electron holes. The velocity of these nonlinear structures can be derived from the measurement of the Doppler-shifted AKR frequency spectrum above the electron gyrofrequency. The generated electron holes appear as the nonlinear evolution of electrostatic waves generated by the electron–electron two-stream instability because they propagate at about half the beam velocity. It is pointed out that, in the vicinity of a DL, the shape of the electron distribution gives rise to a significant power recorded in the left-hand polarized ordinary (LO) mode.
Highlights
Electromagnetic radiation from double layers (DLs) has been extensively studied in laboratory plasma experiments (Volwerk, 1993; Lindberg, 1993; Brenning et al, 2004)
In the source region identified as the auroral density cavity, an unstable horseshoe electron distribution exhibiting large positive velocity gradients in the direction perpendicular to the local magnetic field provides the free energy for auroral kilometric radiation (AKR) (Ergun et al, 2000; Treumann, 2006)
The present paper provides new additional evidence related to the generation of elementary-scale radiation by the electron holes (EHs)
Summary
Electromagnetic radiation from double layers (DLs) has been extensively studied in laboratory plasma experiments (Volwerk, 1993; Lindberg, 1993; Brenning et al, 2004). Spacecraft observations have revealed that the direct consequence of the electron parallel acceleration processes is that the Earth acts as an intense radio source in the kilometre wavelength range (Benediktov et al, 1965; Gurnett, 1974) This offers the possibility of investigating locally the eventual mechanisms leading to electromagnetic radiation generation in the vicinity of a DL. We present some observations, recorded on the high-potential side of a largeamplitude DL (∼ 300 mV m−1), which highlight the generation of electromagnetic sporadic emissions in association with nonlinear coherent structures (electron holes) These emissions take place substantially (∼ 10 %) above the local electron gyrofrequency and the associated wave electric fields are partially polarized in a direction parallel to the magnetic field indicating the probable presence of left-hand polarized ordinary (LO)-mode radiation. The generated electron holes appear as the nonlinear evolution of electrostatic waves generated by this instability
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
