A multispacecraft event study of Pc5 ultralow-frequency waves in the magnetosphere and their external drivers

Wang Chih-Ping; Thorne Richard; Liu Terry Z.Hartinger Michael D.Nagai TsugunobuAngelopoulos VassilisWygant John R.Breneman AaronKletzing CraigReeves Geoffrey D.Claudepierre Seth G.Spence Harlan E.

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A multispacecraft event study of Pc5 ultralow-frequency waves in the magnetosphere and their external drivers

机译：A multispacecraft event study of Pc5 ultralow-frequency waves in the magnetosphere and their external drivers

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abstract_textpWe investigate a quiet time event of magnetospheric Pc5 ultralow-frequency (ULF) waves and their likely external drivers using multiple spacecraft observations. Enhancements of electric and magnetic field perturbations in two narrow frequency bands, 1.5-2 mHz and 3.5-4 mHz, were observed over a large radial distance range from r similar to 5 to 11 R-E. During the first half of this event, perturbations were mainly observed in the transverse components and only in the 3.5-4 mHz band. In comparison, enhancements were stronger during the second half in both transverse and compressional components and in both frequency bands. No indication of field line resonances was found for these magnetic field perturbations. Perturbations in these two bands were also observed in the magnetosheath, but not in the solar wind dynamic pressure perturbations. For the first interval, good correlations between the flow perturbations in the magnetosphere and magnetosheath and an indirect signature for Kelvin-Helmholtz (K-H) vortices suggest K-H surface waves as the driver. For the second interval, good correlations are found between the magnetosheath dynamic pressure perturbations, magnetopause deformation, and magnetospheric waves, all in good correspondence to interplanetary magnetic field (IMF) discontinuities. The characteristics of these perturbations can be explained by being driven by foreshock perturbations resulting from these IMF discontinuities. This event shows that even during quiet periods, K-H-unstable magnetopause and ion foreshock perturbations can combine to create a highly dynamic magnetospheric ULF wave environment./p/abstract_text

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《Journal of geophysical research》 |2017年第5期|5132-5147|共16页
作者
Wang Chih-Ping; Thorne Richard; Liu Terry Z.Hartinger Michael D.Nagai TsugunobuAngelopoulos VassilisWygant John R.Breneman AaronKletzing CraigReeves Geoffrey D.Claudepierre Seth G.Spence Harlan E.;
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Univ Calif Los Angeles, Dept Atmospher & Ocean Sci, Los Angeles, CA 90095 USA;

Univ Calif Los Angeles, Dept Earth Planetary & Space Sci, Los Angeles, CA USA;

Virginia Tech, Dept Elect & Comp Engn, Blacksburg, VA USATokyo Inst Technol, Dept Earth & Planetary Sci, Tokyo, JapanUniv Minnesota, Sch Phys & Astron, Minneapolis, MN 55455 USAUniv Iowa, Dept Phys & Astron, Iowa City, IA 52242 USALos Alamos Natl Lab, Space Sci & Applicat Grp, Los Alamos, NM USANew Mexico Consortium, Los Alamos, NM USAAerosp Corp, Dept Space Sci, El Segundo, CA 90245 USAUniv New Hampshire, Inst Study Earth Oceans & Space, Durham, NH 03824 USA;

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正文语种英语
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Pc5 waves; Kelvin-Helmholtz vortices; IMF discontinuity; magnetosheath; inner magnetosphere; plasma sheet; HOT FLOW ANOMALIES; KELVIN-HELMHOLTZ INSTABILITY; DAWN-DUSK ASYMMETRY; SOLAR-WIND; RELATIVISTIC ELECTRONS; BOUNDARY-LAYER; ULF-WAVES; BOW SHOCK; FIELD; MAGNETOSHEATH;

A multispacecraft event study of Pc5 ultralow-frequency waves in the magnetosphere and their external drivers

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