Ionospheric conductivity dependence of dayside region-0, 1, and 2 field-aligned current systems: Statistical study with DMSP-F7

K. Haraguchi; H. Kawano; K. Yumoto; S. Ohtani; T. Higuchi; G. Ueno

doi:10.5194/angeo-22-2775-2004

Ionospheric conductivity dependence of dayside region-0, 1, and 2 field-aligned current systems: Statistical study with DMSP-F7

K. Haraguchi, H. Kawano, K. Yumoto, S. Ohtani, T. Higuchi, G. Ueno

Earth Planetary Fluid and Space Sciences

Research output: Contribution to journal › Article › peer-review

24 Citations (Scopus)

Abstract

The present study statistically examines the dependence of the intensities of dayside (MLT=8-12 h) large-scale field-aligned currents (FACs) on the ionospheric conductance using the summary data of DMSP-F7 constructed by the procedure of Higuchi and Ohtani (2000). We have found that, in the dayside region, R1 and R0 have a higher, correlation between ionospheric conductivity and FAC intensity than R2, suggesting that R0 and R1 are driven by a more voltage-like source than R2. This result is consistent with the idea that R1 and R0 are driven by the interaction between the solar wind and the open magnetospheric magnetic field. We have also found that dayside FAC intensities are latitudinally well balanced when they have a three sheet structure (R0, R1 and R2); on the other hand, for a two sheet structure (R1 and R2), the intensity of R1 is larger than that of R2, so that the net current has the polarity of R1.

Original language	English
Pages (from-to)	2775-2783
Number of pages	9
Journal	Annales Geophysicae
Volume	22
Issue number	8
DOIs	https://doi.org/10.5194/angeo-22-2775-2004
Publication status	Published - 2004

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Geology
Atmospheric Science
Earth and Planetary Sciences (miscellaneous)
Space and Planetary Science

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10.5194/angeo-22-2775-2004

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title = "Ionospheric conductivity dependence of dayside region-0, 1, and 2 field-aligned current systems: Statistical study with DMSP-F7",

abstract = "The present study statistically examines the dependence of the intensities of dayside (MLT=8-12 h) large-scale field-aligned currents (FACs) on the ionospheric conductance using the summary data of DMSP-F7 constructed by the procedure of Higuchi and Ohtani (2000). We have found that, in the dayside region, R1 and R0 have a higher, correlation between ionospheric conductivity and FAC intensity than R2, suggesting that R0 and R1 are driven by a more voltage-like source than R2. This result is consistent with the idea that R1 and R0 are driven by the interaction between the solar wind and the open magnetospheric magnetic field. We have also found that dayside FAC intensities are latitudinally well balanced when they have a three sheet structure (R0, R1 and R2); on the other hand, for a two sheet structure (R1 and R2), the intensity of R1 is larger than that of R2, so that the net current has the polarity of R1.",

author = "K. Haraguchi and H. Kawano and K. Yumoto and S. Ohtani and T. Higuchi and G. Ueno",

year = "2004",

doi = "10.5194/angeo-22-2775-2004",

language = "English",

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pages = "2775--2783",

journal = "Annales Geophysicae",

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T1 - Ionospheric conductivity dependence of dayside region-0, 1, and 2 field-aligned current systems

T2 - Statistical study with DMSP-F7

AU - Haraguchi, K.

AU - Kawano, H.

AU - Yumoto, K.

AU - Ohtani, S.

AU - Higuchi, T.

AU - Ueno, G.

PY - 2004

Y1 - 2004

N2 - The present study statistically examines the dependence of the intensities of dayside (MLT=8-12 h) large-scale field-aligned currents (FACs) on the ionospheric conductance using the summary data of DMSP-F7 constructed by the procedure of Higuchi and Ohtani (2000). We have found that, in the dayside region, R1 and R0 have a higher, correlation between ionospheric conductivity and FAC intensity than R2, suggesting that R0 and R1 are driven by a more voltage-like source than R2. This result is consistent with the idea that R1 and R0 are driven by the interaction between the solar wind and the open magnetospheric magnetic field. We have also found that dayside FAC intensities are latitudinally well balanced when they have a three sheet structure (R0, R1 and R2); on the other hand, for a two sheet structure (R1 and R2), the intensity of R1 is larger than that of R2, so that the net current has the polarity of R1.

AB - The present study statistically examines the dependence of the intensities of dayside (MLT=8-12 h) large-scale field-aligned currents (FACs) on the ionospheric conductance using the summary data of DMSP-F7 constructed by the procedure of Higuchi and Ohtani (2000). We have found that, in the dayside region, R1 and R0 have a higher, correlation between ionospheric conductivity and FAC intensity than R2, suggesting that R0 and R1 are driven by a more voltage-like source than R2. This result is consistent with the idea that R1 and R0 are driven by the interaction between the solar wind and the open magnetospheric magnetic field. We have also found that dayside FAC intensities are latitudinally well balanced when they have a three sheet structure (R0, R1 and R2); on the other hand, for a two sheet structure (R1 and R2), the intensity of R1 is larger than that of R2, so that the net current has the polarity of R1.

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JO - Annales Geophysicae

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Ionospheric conductivity dependence of dayside region-0, 1, and 2 field-aligned current systems: Statistical study with DMSP-F7

Abstract

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