Interhemispheric comparison of GPS phase scintillation at high latitudes during the magnetic-cloud-induced geomagnetic storm of 5-7 April 2010

Prikryl, P. and Spogli, L. and Jayachandran, P. T. and Kinrade, J. and Mitchell, C. N. and Ning, B. and Li, G. and Cilliers, P. J. and Terkildsen, M. and Danskin, D. W. and Spanswick, E. and Donovan, E. and Weatherwax, A. T. and Bristow, W. A. and Alfonsi, L. and De Franceschi, G. and Romano, V. and Ngwira, C. M. and Opperman, B. D. L. (2011) Interhemispheric comparison of GPS phase scintillation at high latitudes during the magnetic-cloud-induced geomagnetic storm of 5-7 April 2010. Annales Geophysicae, 29 (12). pp. 2287-2304. ISSN 0992-7689

Full text not available from this repository.

Abstract

Arrays of GPS Ionospheric Scintillation and TEC Monitors (GISTMs) are used in a comparative scintillation study focusing on quasi-conjugate pairs of GPS receivers in the Arctic and Antarctic. Intense GPS phase scintillation and rapid variations in ionospheric total electron content (TEC) that can result in cycle slips were observed at high latitudes with dual-frequency GPS receivers during the first significant geomagnetic storm of solar cycle 24 on 5-7 April 2010. The impact of a bipolar magnetic cloud of north-south (NS) type embedded in high speed solar wind from a coronal hole caused a geomagnetic storm with maximum 3-hourly Kp = 8- and hourly ring current Dst = -73 nT. The interhemispheric comparison of phase scintillation reveals similarities but also asymmetries of the ionospheric response in the northern and southern auroral zones, cusps and polar caps. In the nightside auroral oval and in the cusp/cleft sectors the phase scintillation was observed in both hemispheres at about the same times and was correlated with geomagnetic activity. The scintillation level was very similar in approximately conjugate locations in Qiqiktarjuaq (75.4 degrees N; 23.4 degrees E CGM lat. and lon.) and South Pole (74.1 degrees S; 18.9 degrees E), in Longyearbyen (75.3 degrees N; 111.2 degrees E) and Zhongshan (74.7 degrees S; 96.7 degrees E), while it was significantly higher in Cambridge Bay (77.0 degrees N; 310.1 degrees E) than at Mario Zucchelli (80.0 degrees S; 307.7 degrees E). In the polar cap, when the interplanetary magnetic field (IMF) was strongly northward, the ionization due to energetic particle precipitation was a likely cause of scintillation that was stronger at Concordia (88.8 degrees S; 54.4 degrees E) in the dark ionosphere than in the sunlit ionosphere over Eureka (88.1 degrees N; 333.4 degrees E), due to a difference in ionospheric conductivity. When the IMF tilted southward, weak or no significant scintillation was detected in the northern polar cap, while in the southern polar cap rapidly varying TEC and strong phase scintillation persisted for many hours. This interhemispheric asymmetry is explained by the difference in the location of solar terminator relative to the cusps in the Northern and Southern Hemisphere. Solar terminator was in the immediate proximity of the cusp in the Southern Hemisphere where sunlit ionospheric plasma was readily convected into the central polar cap and a long series of patches was observed. In contrast, solar terminator was far poleward of the northern cusp thus reducing the entry of sunlit plasma and formation of dense patches. This is consistent with the observed and modeled seasonal variation in occurrence of polar cap patches. The GPS scintillation and TEC data analysis is supported by data from ground- based networks of magnetometers, riometers, ionosondes, HF radars and all- sky imagers, as well as particle flux measurements by DMSP satellites.

Item Type:
Journal Article
Journal or Publication Title:
Annales Geophysicae
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/1900/1901
Subjects:
?? ionosphereionospheric irregularitiesmagnetospheric physicsstorms and substormsradio sciencespace and satellite communicationdensity structuressolar minimumpolar ionosphereauroral ovaljanuary 10geoeffectivenessdynamicspatchesfluctuationsclimatologyearth an ??
ID Code:
75806
Deposited By:
Deposited On:
21 Oct 2015 04:59
Refereed?:
Yes
Published?:
Published
Last Modified:
15 Jul 2024 15:27