Journal ArticleDOI
The time structure of transionospheric radio wave scintillation
C. L. Rino,J. Owen +1 more
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TLDR
In this article, the authors analyzed the time structure of a representative set of weakly and strongly scintillating transionospheric beacon signals and found that the coherence time of the signal intensity is a monotonic function of the Fresnel radius divided by the effective scan velocity.Abstract:
The time structure of a representative set of weakly and strongly scintillating transionospheric beacon signals is analyzed. Under conditions of weak scatter, the coherence time of the signal intensity is a monotonic function of the Fresnel radius divided by the effective scan velocity. The shape of the function, however, is controlled by the power law index. Data from a Peruvian station show evidence of a slightly steeper spectral distribution than do data from Kwajalein in the Marshall Islands. Under conditions of strong scattering, the intensity coherence time depends only on the perturbation strength. The strong scatter data show remarkably little dispersion when they are plotted against the perturbation strength. The data are all consistent with a phase spectral slope somewhat less than 3, which is independently verified by using phase scintillation data.read more
Citations
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Ionospheric constraints on VHF/UHF communications links during solar maximum and minimum periods
TL;DR: In this article, an extensive VHF/UHF scintillation data base covering the frequency range of VHF to a few gigahertz has been utilized to determine the magnitudes of phase and intensity scintillations and their temporal/spatial structures during the sunspot maximum and minimum periods.
Journal ArticleDOI
Equatorial scintillations—a review
TL;DR: In this paper, the authors reviewed recent observations of equatorial scintillations with an emphasis on GHz measurements and explored the steep spatial gradients observed in in-situ data and their relationship to intense GHz scintillation.
Journal ArticleDOI
High resolution topside in situ data of electron densities and VHF/GHz scintillations in the equatorial region
TL;DR: In this paper, in situ measurements of high-resolution (spatial resolution 35 m) irregularity structures in the topside ionosphere using the retarding potential analyzer (RPA) on the AE-E satellite and scintillation measurements using the geostationary satellite Marisat transmissions at 257 MHz and 1.54 GHz from Ascension Island were made in December, 1979 during the recent solar maximum period.
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Simultaneous Rocket-Borne Beacon and In Situ Measurements of Equatorial Spread F - Intermediate Wavelength Results
TL;DR: In this paper, the authors report the results of spectrally analyzing the beacon phase-scintillation and Langmuir probe data and suggest that refinements in the current theories of equatorial spread F near and above the F region peak are needed.
Journal ArticleDOI
Size, shape, orientation, speed, and duration of GPS equatorial anomaly scintillations
TL;DR: In this article, GPS L1 C/A signal scintillation data were collected at the equatorial anomaly over a period of three months using five receivers spaced on magnetic east-west and north-south axes.
References
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Journal ArticleDOI
A power law phase screen model for ionospheric scintillation: 2. Strong scatter
TL;DR: In this article, the weak scatter scintillation theory is reformulated to show explicitly the ramifications of an arbitrarily large ionospheric outer scale, which is applied to representative data sets from the Wideband satellite.
Journal ArticleDOI
Early results from the DNA Wideband satellite experiment—Complex‐signal scintillation
E. J. Fremouw,R. L. Leadabrand,R. C. Livingston,M. D. Cousins,C. L. Rino,B. C. Fair,R. A. Long +6 more
TL;DR: In this article, the authors present early results of the observations; salient points include the following, most of the data are consistent with phase-screen modeling of the production of ionospheric scintillation, including an ƒ−2 frequency dependence for phase variance.
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In situ measurements of the spectral characteristics of F region ionospheric irregularities
TL;DR: The retarding potential analyzer aboard Ogo 6 has provided high-resolution observations of the ion concentration along the satellite path as mentioned in this paper, and the most common frequency spectrum observed suggests that the responsible irregularities result from the turbulent dissipation of larger irregularities.
Journal ArticleDOI
Spectra of ionospheric scintillation
TL;DR: In this paper, the amplitude and phase scintillation were observed at the Millstone Hill radar facility by using phase coherent sources at 150 and 400 MHz on the U.S. Navy navigation system satellites.
Journal ArticleDOI
Multifrequency spectra of ionospheric amplitude scintillations
R. Umeki,C. H. Liu,K. C. Yeh +2 more
TL;DR: In this article, the power spectra of amplitude scintillation at a mid-latitude station of transmissions from the ATS 6 radio beacon experiments are used to find the power spectral shape.