Global Positioning System (GPS) scintillation associated with a polar cap patch

P. Thayyil Jayachandran; Anthony M. McCaffrey; Yong Wang; David Themens; Benjamin Reid; Qinghe Zhang; Zanyang Xing; Christopher J Watson

doi:10.3390/rs13101915

Global Positioning System (GPS) scintillation associated with a polar cap patch

P. Thayyil Jayachandran, Anthony M. McCaffrey, Yong Wang, David Themens, Benjamin Reid, Qinghe Zhang, Zanyang Xing , Christopher J Watson (Contributor)

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Abstract

A Global Positioning System (GPS) network in the polar cap, along with ionosonde and SuperDARN radar measurements, are used to study GPS signal amplitude and phase scintillation associated with a polar cap patch. The patch was formed due to a north-to-south transition of the interplanetary magnetic field (IMF Bz). The patch moved antisunward with an average speed of ~600 m/s and lasted for ~2 h. Significant scintillation occurred on the leading edge of the patch, with smaller bursts of scintillation inside and on the trailing edge. As the patch moved, it maintained the integrity of the scintillation, producing irregularities (Fresnel scale) on the leading edge. There were no convection shears or changes in the direction of convection during scintillation events. Observations suggest that scintillation-producing Fresnel scale structures are generated through the non-linear evolution of the gradient drift instability mechanism.

Original language	English
Article number	1915
Number of pages	12
Journal	Remote Sensing
Volume	13
Issue number	10
DOIs	https://doi.org/10.3390/rs13101915
Publication status	Published - 13 May 2021

Keywords

GNSS technology
ionospheric scintillation
plasma irregularities
polar cap ionosphere
solar-terrestrial interaction

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title = "Global Positioning System (GPS) scintillation associated with a polar cap patch",

abstract = "A Global Positioning System (GPS) network in the polar cap, along with ionosonde and SuperDARN radar measurements, are used to study GPS signal amplitude and phase scintillation associated with a polar cap patch. The patch was formed due to a north-to-south transition of the interplanetary magnetic field (IMF Bz). The patch moved antisunward with an average speed of ~600 m/s and lasted for ~2 h. Significant scintillation occurred on the leading edge of the patch, with smaller bursts of scintillation inside and on the trailing edge. As the patch moved, it maintained the integrity of the scintillation, producing irregularities (Fresnel scale) on the leading edge. There were no convection shears or changes in the direction of convection during scintillation events. Observations suggest that scintillation-producing Fresnel scale structures are generated through the non-linear evolution of the gradient drift instability mechanism.",

keywords = "GNSS technology, ionospheric scintillation, plasma irregularities, polar cap ionosphere, solar-terrestrial interaction",

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AU - Jayachandran, P. Thayyil

AU - McCaffrey, Anthony M.

AU - Wang, Yong

AU - Themens, David

AU - Reid, Benjamin

AU - Zhang, Qinghe

AU - Xing , Zanyang

A2 - Watson, Christopher J

PY - 2021/5/13

Y1 - 2021/5/13

N2 - A Global Positioning System (GPS) network in the polar cap, along with ionosonde and SuperDARN radar measurements, are used to study GPS signal amplitude and phase scintillation associated with a polar cap patch. The patch was formed due to a north-to-south transition of the interplanetary magnetic field (IMF Bz). The patch moved antisunward with an average speed of ~600 m/s and lasted for ~2 h. Significant scintillation occurred on the leading edge of the patch, with smaller bursts of scintillation inside and on the trailing edge. As the patch moved, it maintained the integrity of the scintillation, producing irregularities (Fresnel scale) on the leading edge. There were no convection shears or changes in the direction of convection during scintillation events. Observations suggest that scintillation-producing Fresnel scale structures are generated through the non-linear evolution of the gradient drift instability mechanism.

AB - A Global Positioning System (GPS) network in the polar cap, along with ionosonde and SuperDARN radar measurements, are used to study GPS signal amplitude and phase scintillation associated with a polar cap patch. The patch was formed due to a north-to-south transition of the interplanetary magnetic field (IMF Bz). The patch moved antisunward with an average speed of ~600 m/s and lasted for ~2 h. Significant scintillation occurred on the leading edge of the patch, with smaller bursts of scintillation inside and on the trailing edge. As the patch moved, it maintained the integrity of the scintillation, producing irregularities (Fresnel scale) on the leading edge. There were no convection shears or changes in the direction of convection during scintillation events. Observations suggest that scintillation-producing Fresnel scale structures are generated through the non-linear evolution of the gradient drift instability mechanism.

KW - GNSS technology

KW - ionospheric scintillation

KW - plasma irregularities

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Global Positioning System (GPS) scintillation associated with a polar cap patch

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Keywords

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