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AGU: Journal of Geophysical Research, Space Physics

 

Index Terms

  • Atmospheric Composition and Structure: Airglow and aurora
  • Ionosphere: Ionosphere/atmosphere interactions
  • Ionosphere: Ionospheric disturbances
  • Ionosphere: Ionospheric dynamics
  • Magnetospheric Physics: Storms and substorms
Abstract
Cited By (18)
 

Abstract

JOURNAL OF GEOPHYSICAL RESEARCH, VOL. 107, 1088, 11 PP., 2002
doi:10.1029/2001JA000245

A large-scale traveling ionospheric disturbance during the magnetic storm of 15 September 1999

K. Shiokawa

Solar-Terrestrial Environment Laboratory, Nagoya University, Toyokawa, Japan

Y. Otsuka

Solar-Terrestrial Environment Laboratory, Nagoya University, Toyokawa, Japan

T. Ogawa

Solar-Terrestrial Environment Laboratory, Nagoya University, Toyokawa, Japan

N. Balan

Department of Physics, University of Wales, Aberystwyth, U.K.

K. Igarashi

Communications Research Laboratory, Koganei, Tokyo, Japan

A. J. Ridley

University of Michigan, Ann Arbor, Michigan, USA

D. J. Knipp

Department of Physics, U.S. Air Force Academy, Colorado, USA

A. Saito

Graduate School of Science, Kyoto University, Kyoto, Japan

K. Yumoto

Faculty of Science, Kyushu University, Fukuoka, Japan

Using a comprehensive data set and model calculations, we have investigated a prominent large-scale traveling ionospheric disturbance (LSTID) observed in Japan (∼37°–16° MLAT) on 15 September 1999, during a recovery phase of sequential storms. The LSTID was detected at 2300–2400 LT (1400–1500 UT) as an enhancement of the 630-nm airglow intensity (50→350 R), a decrease in the F layer virtual height (at 2 MHz, 360→200 km), an enhancement of foF2 (6→8 MHz), and an enhancement of GPS total electron content (∼1.0 × 1016 m−2). Multipoint and imaging observations of these parameters show that the LSTID moved equatorward over Japan with a velocity of ∼400–450 m/s. From a comparison with the Sheffield University Plasmasphere-Ionosphere Model (SUPIM) we conclude that an enhancement (250–300 m/s) of poleward neutral wind (that is propagating equatorward) caused these observational features of the LSTID at midlatitudes. To investigate generation of the LSTID by auroral energy input, we have used auroral images obtained by the Polar UVI instrument, magnetic field variations obtained at multipoint ground stations, and the empirical Joule heating rate calculated by the assimilative mapping of ionospheric electrodynamics (AMIE) technique. Intense auroral energy input was observed at 0800–1100 UT (4–6 hours before the LSTID), probably causing equatorward neutral wind at lower latitudes. It is likely that the poleward wind pulse that caused the observed LSTID was generated associated with the cessation of this equatorward wind. The effect of Lorentz force is also discussed.

Published 29 June 2002.

Citation: Shiokawa, K., Y. Otsuka, T. Ogawa, N. Balan, K. Igarashi, A. J. Ridley, D. J. Knipp, A. Saito, and K. Yumoto (2002), A large-scale traveling ionospheric disturbance during the magnetic storm of 15 September 1999, J. Geophys. Res., 107(A6), 1088, doi:10.1029/2001JA000245.

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