Global Distribution of L-Band Ionospheric Scintillation · Global Distribution of L-Band...
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Global Distribution of L-Band Ionospheric Scintillation
IGARSS, Vancouver, Canada, July 26, 2011
Xiaoqing PiAnthony J. Mannucci
Anthony Freeman
Jet Propulsion Laboratory, California Institute of Technology
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ANASOutline
• Motivation of the study To characterize ionospheric scintillation using GPS data made with
GPS radio occultation receivers onboard six COSMIC satellites To provide statistics of global ionospheric scintillation to support
spaceborne remote sensing radar mission planning and data analyses
• Statistical AnalysisCOSMIC 1-sec S4 measurements (amplitude scintillation)Global measurements made from all COSMIC satellites in 12
months LAT, LON, LT, and ALT distribution; F and E regions
• Summary
July 26, 2011 Global Distribution of Ionospheric Scintillation
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ANASPlasma Bubbles and Scintillation Effects Captured in PolSAR Images
September 21, 2009 Pi et al.: Ionospheric Variations Imaged Using GPS & SAR
Polarimetric observations made using ALOS PALSAR reveal• random fluctuations of polarization (Faraday rotation)• depletion of Faraday rotation (or TEC) [Pi et al., 2011, JGR]
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ANASPlasma Bubbles and Scintillation Effects Captured in PolSAR Images
September 21, 2009 Pi et al.: Ionospheric Variations Imaged Using GPS & SAR
Polarimetric observations made using ALOS PALSAR reveal• random fluctuations of polarization (Faraday rotation)• depletion of Faraday rotation (or TEC) [Pi et al., 2011, JGR]
![Page 5: Global Distribution of L-Band Ionospheric Scintillation · Global Distribution of L-Band Ionospheric Scintillation IGARSS, Vancouver, Canada, July 26, 2011 Xiaoqing Pi Anthony J.](https://reader034.fdocuments.us/reader034/viewer/2022050118/5f4f1685c0ca61296f5558b1/html5/thumbnails/5.jpg)
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ANASPlasma Bubbles and Scintillation Effects Captured in PolSAR Images
September 21, 2009 Pi et al.: Ionospheric Variations Imaged Using GPS & SAR
Polarimetric observations made using ALOS PALSAR reveal• random fluctuations of polarization (Faraday rotation)• depletion of Faraday rotation (or TEC) [Pi et al., 2011, JGR]
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ANASScintillation LT & LAT Distribution from Ground-Based Measurements
[Basu, 2003]
December 19, 2008 Pi et al.: Imaging the Ionosphere Using SAR & GPS
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ANASGPS Radio Occultation Tracking
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GPS
LEO
[wikipedia.com]
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ANASIonospheric Measurements from GPS Radio Occultations
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Density Profiles • Time sequence of dual-frequency GPS
phase and pseudorangemeasurements to derive TEC along the signal path
• Abel inversion electron and neutraldensity profile
Scintillation• 50-Hz L1 C/A SNR data • 1-sec amplitude scintillation S4 proxy • Time sequence of S4 S4 alt profile• S4,max for the profile
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ANASCOSMIC 1-Sec S4 Proxy for Amplitude Scintillation Measurements
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• 1-second S4 index proxy, is the low-pass filtered intensity, and the filtering is performed on . The average is approximately derived from the SNR data.
• SNR: L1-C/A signal to noise ratio, sampled at 50 Hz
• No phase scintillation measurements (which require higher standard and more expensive oscillator as well as more CPU, storage, and power)
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ANASMeasured S4 Index and Retrieved Ne Profile
• LEO: CSM02• GPS: PRN11
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• LAT: –42.519°• LON: 168.043°
Nighttime
Max S4
Weak Scintillation (?) or noisy data
F-region topside
Irregularities?
E LayerDuration: 9.7 min
TP range: ~ 10.7° ~ 4.7°
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ANASF- and E-Region Irregularities/Scintillations
• LEO: CSM04• GPS: PRN19
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• LAT: –4.086°• LON: 37.336°
Evening
E Layer
F-RegionIrregularities F-Region
and E-RegionScintillation
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ANASIonospheric Scintillation Associated with Various Inhomogeneities
• LEO’s: CSM01-06• GPS’s: All
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• 2009.274 (one day in Oct)• Global, all time
E-RegionLayering,etc.
F-regionIrregularities
TopsideIrregularities
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ANASData Presentation
• S4,max and its corresponding tangent point altitude (TPALT) Radio occultation links: elevation angle ≤ 0° Tangent point: the point along the radio link where the distance to the
center of the Earth is closest Maximum S4 in an occultation profile TPALT: altitude of the tangent point
• Data binning• Median(S4,max)• ALT range
150 – 600 km (F region) 80 – 150 km (D and E region)
• Occurrence RateN_Events(S4,max >= S4,max0) / N_Total_Samples
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ANASGlobal Distribution of Amplitude ScintillationAltitude Range: 150~600 km October 2009
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S4
S4
LON
LT
LAT
LAT
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ANASScintillation Occurrence: (2009, LON, LAT)
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JAN FEB
MAR APR
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ANASScintillation Occurrence: (2009, LON, LAT)
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MAY JUN
JUL AUG
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ANASScintillation Occurrence: (2009, LON, LAT)
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SEP OCT
NOV DEC
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ANASScintillation Occurrence: (2009, LT, LAT)
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FEB
APR
JAN
MAR
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ANASScintillation Occurrence: (2009, LT, LAT)
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MAY
JUL
JUN
AUG
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ANASScintillation Occurrence: (2009, LT, LAT)
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SEP
NOV
OCT
DEC
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ANASSummary
• Amplitude scintillation measured using GPS radio occultation signals must be characterized according to altitude regions (F and E regions) where different ionospheric phenomena occur F-region ionospheric irregularities, which also cause scintillation in
ground-based GPS observations E-region density changes or layering in a narrow altitude range,
which usually do not cause scintillation in ground-based GPS or spaceborne observations
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ANASSummary (Cont.)
• The results of the L-band amplitude scintillation analysisDistinguished local time, longitudinal, and seasonal variations at
low latitudes– Equinox months: extending to most longitudes– May through August: Pacific regions– Dec through Feb: America longitudes– Nighttime phenomenon: after sunset, through 3 or 4 AM
Insignificant amplitude scintillation in high latitude/Auroral regions– Dec 2009: an exception; daytime scintillation is observed in the
southern hemisphereNote (based on previous studies using ground-based GPS data):
– Phase scintillation cannot be ignored at high latitudes, which is not analyzed here
– Phase scintillation is usually as strong as amplitude at low latitudes, and stronger than amplitude scintillation at high latitudes
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ANASCopyright Note
Copyright 2010, by the California Institute of Technology.
All RIGHTS RESERVED. United States Government Sponsorship
acknowledged.
July 26, 2011 Global Distribution of Ionospheric Scintillation