The influence of aurora on ionospheric electron content

Forsyth, P. A.; Fulford, J. A.; Hofstee, J.; Lyon, G. F.

doi:10.1139/p81-144

Cited by 2 publications

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“…Appropriate instabilities have been observed in hph-altitude barium releases and there is some evidence that the irregularities are more numerous in the vicinity of "old" auroral ionization (3). However the irregularities are formed.…”

Section: Introductionmentioning

confidence: 99%

High latitude ionospheric scintillations

Fulford¹,

Forsyth²

1984

Can. J. Phys.

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The statistical characteristics of ionosphcric irrcgularitics arc often dcscribcd by specifying onc or two of thc statistical parametcrs of thc scintillations that the irregularities producc in satcllitc radio signals. Thc most commonly used paramctcr for this purposc is thc spectral indcx (slope of thc powcr spcctral density function on a log-log plot). While it is becoming increasingly clcar that thc characterization of cithcr phasc or arnplitudc scintillations by a singlc pararnctcr may obscure significant characteristics of thc scintillations, this simple approach has provcn to bc ~rscful for the prediction of thc bchaviour of transionosphcric propagation paths such as thosc used in wrious space application systcms. This papcr cxplorcs the use, in addition to thc usual phase and amplitudc obscrvations, of measurcmcnts of anglc-of-arrival, in ordcr to charactcrizc thc scintillations. Sincc cach of these obscrvations rcprcscnt a diffcrcnt kind of obscrvational "filtering", the combination of one statistical paralnctcr from each typc of rncasurcmcnt should providc a morc adcquatc characterization of thc scintillations. I t is found that thc usc of thc widths of thc autocorrclation functions for this purposc is prcfcrrcd ovcr thc usc of spcctral indices.On dicrit souvcnt Ics caractdristiqucs statistiqucs dcs irrdgularitds ionosphdriqucs cn spdcifiant un ou deux dcs paramttres statistiqucs dcs scintillations quc Ics irrdgularitds produiscnt dans Ics signaux radio, dcs satcllitcs. LC parametre lc plus comrnun6rncnt utilisd h cctte fin cst I'indice spectral (la pentc dc la fonction dcnsitd spectralc dc puissance en Cchcllc log-log). Bien qu'il dcviennc de plus cn plus dvidcnt que la caractkrisation dcs scintillations dc phase ou d'amplitude par un scul paramttrc pcut obscurcir lcs calacteristiqucs significatives dcs scintillations. ccttc approchc simple s'cst averde utile pour la prediction du comportcnicnt dcs parcours de propagation trans-ionosphdricluc comme ccux qu'on utilisc dans divers systemes d'applications spatialcs. Dans cet article, on explore I'utilisation. en plus dcs obscrvations usucllcs de phase ct d'amplitude, de mcsurcs dc I'anglc d'arrivdc pour caracteriscr lcs scintillations. Etant donne quc chacune de ccs obscrvations rcprescnte une diffCrcntc sortc de "filtrage" obscrvationnel, on dcvrait obtenir, en prenant un paranittre statistiquc vcnant dc chaque type de mcsure, Lrne combinaison donnnnt une caractkrisation plus adequate dcs scintillations. On trouve qu'il cst prefCrablc d'utiliscr h cette fin lcs largeurs dcs fonctions d'autocorrdlation, plutBt que les indices spcctraux.[Traduit par le journal]Can.

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Section: Introductionmentioning

confidence: 99%

High latitude ionospheric scintillations

Fulford¹,

Forsyth²

1984

Can. J. Phys.

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Auroral Zone Ionospheric Considerations for WADGPS

Skone

Cannon

1998

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Dual-frequency GPS receivers enable the estimation of absolute ionospheric delay and total electron content (TEC) along the signal path. By using a number of reference stations, each equipped with a dual-frequency receiver, it is possible to estimate values of the vertical ionospheric delay at a set of designated grid points. This type of ionosphere delay modeling is employed in Wide Area Differential GPS (WADGPS) networks, where grid accuracies generally depend on the temporallspatial correlations of TEC. These models can suffer degraded performance in regions, such as the high-latitude aurora1 zone, where spatial gradients and temporal variations of electron density may differ significantly from assumptions. In this paper, TEC variations in the aurora1 zone are investigated during periods of enhanced ionospheric activity. Accuracies of corresponding wide area ionospheric grid corrections are also investigated for various grid spacings.

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The influence of aurora on ionospheric electron content

Cited by 2 publications

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High latitude ionospheric scintillations

High latitude ionospheric scintillations

Auroral Zone Ionospheric Considerations for WADGPS

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