Stormtime Electric Field at High-Equatorial Latitudes...
Transcript of Stormtime Electric Field at High-Equatorial Latitudes...
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地磁気脈動に伴う低緯度電離圏電場とグローバル電流系
菊池崇、橋本久美子、西村幸敏、海老原祐輔、冨澤一郎、長妻努
T. Kikuchi1, K. K. Hashimoto2, Y. Nishimura3, , Y. Ebihara4, I. Tomizawa5, T. Nagatsuma6,
1 Solar-Terrestrial Environment Laboratory, Nagoya University 2 Kibi International University
3 Department of Atmospheric and Ocean Sciences, UCLA
4 Research Institute for Sustainable Humanosphere, Kyoto University
5 Center for Space Science and Radio Engineering, University of Electro-Communications
6 National Institute of Information and Communications Technology
中緯度レーダー研究会(名古屋、2013.1.28)
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目的と計画
SuperDARNレーダ(高中緯度)とHF Doppler(低緯度)、低高度衛星により、PC5, Pi2の電離圏電場の緯度、地方時特性を求める。
地磁気変動、オーロラ光との対応を調べ、沿磁力線電流‐電離層電流系と電離圏電場の関係を調べる。
グローバルMHDシミュレーションによりダイナモの機構を調べる。
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D-comp H-comp
High latitude
Dip equator A B
In-phase
Out-of-phase
Mid latitude
Motoba et al.(JGR 2003)
Global PC5 coherent at high latitude and
dayside dip equator (morning sector)
component-H D-component
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Y or D-comp X or H-comp
High latitude
Dip equator
In-phase
Out-of-phase Mid latitude
Global PC5 coherent at high latitude and
dayside dip equator (afternoon sector) Motoba et al.(JGR 2003)
component-HD-component
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PC5 oscillations in the HF Doppler frequency (Motoba et al., JGR 2004)
Dayside Nightside
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H 0 H 0
High
Latitude
Dip Equator
H > 0 (EQ)
Pedersen Current D 0
(ML)
Hall Current
DP2-type ionospheric currents of
the global PC5
D < 0
(ML)
Motoba et al.(JGR 2003)
f < 0 (LL) f > 0 (LL)
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Geomagnetic storm recorded on October 31, 2003 at Okinawa (OKI),
Yap, Micronesia (YAP) and Sao Luis, Brazil (SLZ)
Quiet-time diurnal variations
Storm-time variations
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Daytime HFD pulsations
are anti-correlated with
equatorial PCs in the
period range of 1-2 min.
09MLT
21MLT
09MLT
09MLT
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Pi2
2 min period
Daytime HFD pulsations
are anti-correlated with
EEJ oscillations in the
period range of 1-2 min.
09MLT
09MLT
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Daytime HFD pulsations
are anti-correlated with
EEJ oscillations in the
period range of 2-3 min.
11MLT
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Daytime HFD pulsations
are anti-correlated with
EEJ oscillations in the
period range of 2-5 min.
14MLT
02MLT
14MLT
14MLT
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Daytime HFD pulsations
are anti-correlated with
EEJ oscillations in the
period range of 2-5 min.
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HFDはOKIと正相関。HFD
はYAPと逆相関。
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Daytime HFD pulsations
are anti-correlated with
EEJ oscillations in the
period range of 1-3 min.
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HFDはYAPとほぼ逆相関。OKIとは位相ずれ。
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YAP-OKIはHFDと逆相関。
0.6Hz/30nT 0.8Hz/40nT
0.02Hz/nT
Daytime HFD pulsations
are anti-correlated with
EEJ oscillations in the
period range of 2-5 min.
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Nighttime HFD
pulsations are anti-
correlated with EEJ
oscillations in the period
range of 2-5 min.
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Nighttime HFD
pulsations are anti-
correlated with EEJ
oscillations in the period
range of 3-7 min.
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伝搬モードに関する考察
OKIとYAPはほぼ同じ変化でcompressional modeの変動を表している。SLZとの位相関係は同位
相もあれば逆位相もある。しかし、YAP-OKIとSLZは逆位相となる。
夜側赤道電離層に電流が流れていることを示しており、昼間赤道電離層電流と逆方向である。電離層電流はAlfven modeで極域電離層へ伝搬し、TM0 modeで昼と夜の赤道電離層へ伝搬する。
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Conclusion
Geomagnetic pulsations with periods of 1 to 10 min are
amplified at the dayside geomagnetic equator, caused by the
ionospheric currents transmitted from the polar ionosphere.
The geomagnetic pulsations are composed of DL and DP
components in the same way as the sudden commencement.
The HF Doppler frequency deviations are negatively correlated
with the DP component of the PCs on both the day- and
nightside.
The ionospheric electric field associated with the geomagnetic
pulsations is a potential field carried by field-aligned currents.
The dynamo for the field-aligned currents should be clarified to
understand the physics of the geomagnetic pulsations.