1997
DOI: 10.1029/97rs00310
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Imaging of electron density troughs by tomographic techniques

Abstract: Abstract. Troughs in the latitudinal distribution of electron density are a well-known feature of the ionosphere from subauroral to polar latitudes. The location and depth of the trough minimum, the width of the feature, and the horizontal gradients in electron density associated with the trough walls are all quantities of interest or concern to practical applications of radio systems involving the ionosphere. In practice, the precise characteristics of trough-like structures have been difficult to monitor usi… Show more

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Cited by 59 publications
(58 citation statements)
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“…With the increasing sunlight at dawn, ionization production results in increased densities in the trough and the apparent rapid retreat of the feature to higher latitudes with the trough minimum being typically at 65 • corrected geomagnetic latitude at 08:00 LT in the results of Krankowski et al (2009). A large-scale trough also features in the post-noon high-latitude dayside ionosphere (Kersley et al, 1997). It also comprises a band of lower densities confined in latitude but extended in longitude.…”
Section: Introductionmentioning
confidence: 99%
“…With the increasing sunlight at dawn, ionization production results in increased densities in the trough and the apparent rapid retreat of the feature to higher latitudes with the trough minimum being typically at 65 • corrected geomagnetic latitude at 08:00 LT in the results of Krankowski et al (2009). A large-scale trough also features in the post-noon high-latitude dayside ionosphere (Kersley et al, 1997). It also comprises a band of lower densities confined in latitude but extended in longitude.…”
Section: Introductionmentioning
confidence: 99%
“…The International Ionospheric Tomography Community (IITC) has brought together several groups with interests in the field to apply the technique to ionospheric imaging, where routine observations by several chains in different longitude sectors are used to provide information on the plasma distribution over a wide geographic region [Kersley et al, 2005]. The present study employs images from tomography chains in Europe [Kersley et al, 1997] and Greenland [Coker et al, 2001] in a study of the large-scale spatial distribution of the ionospheric plasma in the magnetic postnoon sector in winter, under stable conditions of quiet geomagnetic activity (Kp $ 1) and positive B z . To our knowledge this is the first instance in which the distribution of plasma under northward IMF conditions has been imaged over such a large section of the northern polar region.…”
Section: Introductionmentioning
confidence: 99%
“…Radio tomography (Kunitsyn and Tereshchenko, 2003;Pryse, 2003 and references therein) is a relatively new technique for imaging the spatial distribution of the ionospheric plasma over extended height-versus-latitude planes. It is particularly adept at imaging the plasma distribution in regions of density troughs (Andreeva et al, 1990;Kersley et al, 1997) coverage of the ionosphere at all Universal Times, seasons, geomagnetic and solar conditions. The technique gives wide spatial coverage from a limited number of ground stations and is ideal for monitoring the remote inaccessible regions of the high latitudes.…”
Section: Introductionmentioning
confidence: 99%