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Effects of low frequency waves and spiky electric fields in the magnetotail

Authors :
Cattell, C
Bennett, T
Sigsbee, K
Streed, T
Mozer, F. S
Roth, I
Tsuruda, K
Yamamoto, T
Okada, T
Kokubun, S
Publication Year :
1996
Publisher :
United States: NASA Center for Aerospace Information (CASI), 1996.

Abstract

Intense low frequency waves and large amplitude spiky electric fields are commonly observed in the active magnetotail. These fields are of dynamic significance for substorms because the amplitude of the waves is large enough to provide the dissipation necessary for reconnection. The waves modify the trajectories of ions in the magnetotail, resulting in enhanced energization and pitch angle scattering in comparison with the trajectories obtained without waves. The spikes may represent the nonlinear evolution of the waves. Observations are presented of low frequency waves and spiky electric fields measured in the plasma sheet. The relationship between the waves and the spikes is compared to wave evolution theories. The Lundquist number is evaluated for the magnetotail based on the wave observations and previously published studies of the current sheet scale sizes. The effects of the waves on the ion trajectories are discussed using the results from a particle tracing code.

Subjects

Subjects :
Geophysics

Details

Language :
English
Database :
NASA Technical Reports
Notes :
NSF ATM-95-06594, , NAG5-1098
Publication Type :
Report
Accession number :
edsnas.19970016588
Document Type :
Report