GPS TEC and scintillation measurements from the polar ionosphere during the October 2003 storm
Cathryn N. Mitchell,Lucilla Alfonsi,G. De Franceschi,Mark Lester,Vincenzo Romano,A. W. Wernik +5 more
TLDR
In this paper, a GPS receiver in the European high arctic, operating at 1.575 GHz, experienced both phase and amplitude scintillation on several satellite-to-ground links during the 2003 severe ionospheric storms.Abstract:
[1] Severe ionospheric storms occurred at the end of October 2003. During the evening of 30 October a narrow stream of high electron concentration plasma crossed the polar cap in the antisunward ionospheric convection. A GPS scintillation receiver in the European high arctic, operating at 1.575 GHz, experienced both phase and amplitude scintillation on several satellite-to-ground links during this period. Close examination of the GPS signals revealed the scintillation to be co-located with strong gradients in Total Electron Content (TEC) at the edge of the plasma stream. The gradient-drift instability is a likely mechanism for the generation of the irregularities causing some of the scintillation at L band frequencies during this storm. The origin of the high TEC is explored and the possible implications of the work for scintillation forecasting are noted. The results indicate that the GPS scintillation over Svalbard can originate from traceable ionospheric plasma structures convecting from the American sector.read more
Citations
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Estimation of single station interfrequency receiver bias using GPS-TEC
TL;DR: An online, single station receiver bias estimation algorithm, IONOLAB-BIAS, is developed and implemented to obtain daily and monthly averages of receiver bias, and is observed that it is in excellent accordance with the sparse estimates from the IGS centers for all ionospheric states and regions.
Journal ArticleDOI
Climatology of GPS ionospheric scintillations over high and mid-latitude European regions
Luca Spogli,Lu. Alfonsi,G. De Franceschi,Vincenzo Romano,Vincenzo Romano,Marcio Aquino,Alan Dodson +6 more
TL;DR: In this article, the authors analyzed data of ionospheric scintillation in the geographic latitudinal range 44°-88° N during the period of October, November and December 2003 as a first step to develop a "scintillation climatology" over Northern Europe.
Journal ArticleDOI
Canadian High Arctic Ionospheric Network (CHAIN)
P. T. Jayachandran,Richard B. Langley,John MacDougall,S. C. Mushini,Dimitry Pokhotelov,A. M. Hamza,Ian R. Mann,David K. Milling,Z. C. Kale,R. Chadwick,T. Kelly,Donald Danskin,Charles S. Carrano +12 more
TL;DR: The Canadian High Arctic Ionospheric Network (CHAIN) as mentioned in this paper is a distributed array of ground-based radio instruments in the Canadian high Arctic, which is designed to take advantage of Canadian geographic vantage points for a better understanding of the Sun-Earth system.
Journal ArticleDOI
Space weather challenges of the polar cap ionosphere
TL;DR: In this paper, the SuperDARN convection model is used to track polar cap ionosphere patches backward and forward in time, which can be used to forecast its destination in the future.
Journal ArticleDOI
Characterization of high‐latitude ionospheric scintillation of GPS signals
TL;DR: In this article, a statistical analysis of arctic auroral oval ionospheric scintillation events during the current solar maximum based on high-rate Global Positioning System data collected in Gakona, Alaska (62.39°N, 145.15°W) from August 2010 to March 2013 is presented.
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