Zakharov simulations of beam‐induced turbulence in the auroral ionosphere
Abstract
Recent detections of strong incoherent scatter radar echoes from the auroral F region, which have been explained as the signature of naturally produced Langmuir turbulence, have motivated us to revisit the topic of beam‐generated Langmuir turbulence via simulation. Results from one‐dimensional Zakharov simulations are used to study the interaction of ionospheric electron beams with the background plasma at the F region peak. A broad range of beam parameters extending by more than 2 orders of magnitude in average energy and electron number density is considered. A range of wave interaction processes, from a single parametric decay, to a cascade of parametric decays, to formation of stationary density cavities in the condensate region, and to direct collapse at the initial stages of turbulence, is observed as we increase the input energy to the system. The effect of suprathermal electrons, produced by collisional interactions of auroral electrons with the neutral atmosphere, on the dynamics of Langmuir turbulence is also investigated. It is seen that the enhanced Landau damping introduced by the suprathermal electrons significantly weakens the turbulence and truncates the cascade of parametric decays.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- May 01, 2016
- Source ID
- 10.1002/2016ja022605
Entities
People
- H. Akbari
- J. L. Semeter
- M. A. Hirsch
- Patrick Guio
Organizations
- Air Force Office of Scientific Research
- Boston University
- National Science Foundation
- University College London