Computer Simulations of Electrostatic Solitary Waves in the Magnetotail:
A Nonlinear Model of Broadband Electrostatic Noise
Y. Omura, H. Kojima, and H. Matsumoto
Radio Atmospheric Science Center, Kyoto University
We present computer simulations of the electrostatic solitary waves (ESW)
as observed by GEOTAIL, which had been identified as
broadband electrostatic noise (BEN) in the previous studies.
We performed electrostatic particle simulations for various parameters and
found conditions for generation of the ESW.
The ESW is generated as a results of nonlinear coalescence of strong
electrostatic waves excited by an electrostatic beam instability
involving the electron beam drifting relative to the majority of ions and
another electrons drifting with the ions.
As a necessary condition for the ESW, the ion thermal velocity must be
large enough so that the electrostatic waves due to the beam instability
cannot decay to ion acoustic waves.
The development of the ESW also depends on the density ratio of the two
electron beams. The density of the electron beam drifting against the
ions must be larger than about 30 % of the plasma density.
We make a number of suggestions for future observations of particles and waves
related to the BEN or ESW in the magnetotail.
Simulation Model:
Simulation Results:
For further details, please see
Y. Omura, H. Kojima and H. Matsumoto, Computer Simulation of Electrostatic
Solitary Waves: A Nonlinear Model of Broadband Electrostatic Noise,
Geophysical Research Letters, vol. 21, pages 2,923-2,926, 1994.
Acknowledgments
We thank H. Usui and T. Miyake for discussion concerning
the computer simulations.
We thank the GEOTAIL project team for providing
exciting plasma wave data that shows a close similarity with the
present simulation results.
The computer simulations were done
on the KDK computer system at Radio Atmospheric Science Center,
Kyoto University.
Reference: