The phase structure of very low latitude ULF waves across dawn

Waters, C. L.; Sciffer, M. D.; Fraser, B. J.; Brand, K.; Foulkes, K.; Menk, F. W.; Saka, O.; Yumoto, K.

Title: The phase structure of very low latitude ULF waves across dawn
Creator: Waters, C. L.; Sciffer, M. D.; Fraser, B. J.; Brand, K.; Foulkes, K.; Menk, F. W.; Saka, O.; Yumoto, K.
Relation: Journal of Geophysical Research Vol. 106, Issue A8, p. 15,599-15,608
Publisher Link: http://dx.doi.org/10.1029/2000JA000339
Publisher: American Geophysical Union
Resource Type: journal article
Date: 2001
Description: Ultralow frequency (ULF) waves at the geomagnetic equator are studied by using a small magnetometer array and a one-dimensional electromagnetic wave model. Most ULF waves observed at low latitudes have been associated with shear Alfven mode hydromagnetic resonances in the plasmasphere. Near the equator it is difficult to excite these resonances, and the wave activity is attributed to fast mode waves. The phase difference data recorded at longitudinally spaced, equatorial magnetometers shows a marked change around dawn when one station is sunlit while the other is still in darkness. The phase structure with latitude also shows large phase shifts near the equator, in agreement with previous studies. A model of ULF wave propagation through the equatorial ionosphere is presented and used to compare with the observed amplitude and phase properties. It is shown that the observed frequencies are in the vicinity of the wave cutoff frequency where the phase structure becomes complicated. For frequencies above the cutoff, the phase structure across dawn is directly related to dawn-associated changes in electron density in the ionosphere.
Subject: inner magnetosphere; magnetosphere/ionosphere interactions; MHD waves and instabilities; numerical modeling
Identifier: http://hdl.handle.net/1959.13/26791
Identifier: uon:1128
Identifier: ISSN:0148-0227
Language: eng
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