Abstract
A quantitative study of observations of the ionospheric signatures of magnetospheric ultra low frequency (ULF) waves by a high-latitude (geographic: 69.6°N 19.2°E) high-frequency Doppler sounder has been undertaken. The signatures, which are clearly correlated with pulsations in ground magnetometer data, exhibit periods in the range 100â400 s and have azimuthal wave numbers in the range 3â8. They are interpreted here as local field line resonances. Phase information provided by O- and X-mode Doppler data support the view that these are associated with field line resonances having large azimuthal scale sizes. The relative phases and amplitudes of the signatures in the Doppler and ground magnetometer data are compared with a model for the generation of Doppler signatures from incident ULF waves. The outcome suggests that the dominant mechanism involved in producing the Doppler signature is the vertical component of an E à B bulk motion of the local plasma caused by the electric field perturbation of the ULF wave.Key words. Auroral ionosphere · Magnetosphere-ionosphere interactions · MHD waves and instabilities HF Doppler · ULF Waves
Highlights
Ultra low frequency (ULF) waves are an important coupling mechanism between the magnetosphere and the ionosphere, since they transfer both energy and momentum
The Doppler Pulsation Experiment (DOPE) sounder has identi®ed a population of ionospheric signatures of pulsations uncorrelated with ground magnetic observations
A number of ionospheric signatures of magnetospheric ultra low frequency (ULF) waves have been successfully observed with a new HF Doppler sounder, DOPE, recently deployed near Tromsù, Norway
Summary
Ultra low frequency (ULF) waves are an important coupling mechanism between the magnetosphere and the ionosphere, since they transfer both energy and momentum. These processes are most signi®cant in the high-latitude ionosphere, where the magnetosphereionosphere interaction is strongest. There are many reports of the ionospheric signatures of ®eld line resonances in both the E-region, using VHF radar data An attempt has been made to model the mechanisms involved in generating the ionospheric signatures observed by HF Doppler sounders (Poole et al, 1988; Sutclie and Poole, 1989, 1990; Sutclie, 1994)
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