Simultaneous very high frequency and ultra high frequency observations of the aurora at Fraserburgh, Scotland

Leadabrand, R. L.; Schlobohm, J. C.; Baron, M. J.

doi:10.1029/jz070i017p04235

Cited by 72 publications

(32 citation statements)

References 27 publications

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“…Presnell et al, 1959;Leadabrand et al, 1965;Unwin, 1966b;McNamara, 1972;Hanuise et al, 1991;Kustov et al, 1996;Makarevitch et al, 2002;Meyer et al, 2004;Carter and Makarevich, 2009). These studies have shown that the diurnal variations of echo occurrence at different radio frequencies/ wavelengths were quite similar.…”

Section: Introductionmentioning

confidence: 85%

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On the diurnal variation of the E-region coherent HF echo occurrence

Carter

Makarevich

2010

Journal of Atmospheric and Solar-Terrestrial Physics

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Section: Introductionmentioning

confidence: 85%

“…The exact definitions have varied from study to study and have been mainly dependent on temporal and spatial resolutions of a particular radar system (e.g. Presnell et al, 1959;Leadabrand et al, 1965;Greenwald et al, 1975;Kustov et al, 1996).…”

Section: Introductionmentioning

confidence: 99%

On the diurnal variation of the E-region coherent HF echo occurrence

Carter

Makarevich

2010

Journal of Atmospheric and Solar-Terrestrial Physics

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“…of the radars that have been used, many had narrow beam w•clt!•s and short pulse widths for adequate spatial resolution; and several have had steerable beams [e.g., Leadabrand et al, 1965;Chesnut et al, 1968;Abel and Newell, 1969]. Alaska.…”

Section: Radar Auroral Echoes Obtained By Radars Operating In Thementioning

confidence: 99%

“…The auroral echo signatures typically seen during the afternoon and evening sectors are then described and discussed in relation to radar auroral echo characteristics found by previous investigations and other auroral processes. of the radars that have been used, many had narrow beam w•clt!•s and short pulse widths for adequate spatial resolution; and several have had steerable beams [e.g., Leadabrand et al, 1965;Chesnut et al, 1968;Abel and Newell, 1969]. Finally, we include a dynamic auroral echo signature that may be related to the growth phase of an auroral substorm.…”

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confidence: 99%

Radar auroral echo characteristics as seen by a 398-MHz phased array radar operated at Homer, Alaska

Tsunoda¹,

Presnell²,

Leadabrand³

1974

J. Geophys. Res.

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In this paper we present the first results of the mapping of the spatial distribution of auroral echoes by a 398‐MHz phased array radar recently installed at Homer, Alaska. The results are shown in the form of two‐dimensional spatial maps of auroral echoes. These maps are classified into types that are extensions of the ‘diffuse’ and ‘discrete’ echo types introduced by Leadabrand et al. (1959) and Presnell et al. (1959) for narrow beam radars. The auroral echo signatures typically seen during the afternoon and evening sectors are then described and discussed in relation to radar auroral echo characteristics found by previous investigations and other auroral processes. We show that interpretation of the occurrence of auroral echoes in terms of control by an electric field and by electron density in the radar scattering volume produces a consistent morphology of the radar aurora in relation to the other observed auroral processes. Finally, we include a dynamic auroral echo signature that may be related to the growth phase of an auroral substorm.

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“…There are a number of quite comprehensive reviews of radio auroral work and its interpretation, for example, Booker (1960, Chamberlain (1961), Bagaryalskii (1961, Hultqvist andEgeland (1964', andLange-Hesse (1968), as well as extensive accounts of results by individual groups; for example, Leadabrand et al (1965" andChestnut et al (1968) have descr.bed the work by the Stanford B esearch institute, Unwin and Knox (iC(8) and references therein dealt with the work in New Zealand.…”

Section: A Introductionmentioning

confidence: 99%

The Millstone Hill Propagation Study

Evans¹

1969

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Pefensive radar systems for detecting and locating ballistic missiles must be designed to combat the degradation in system performance that can result from atmospheric and ionospheric refraction effects, clutter and scintillation. These phenomena become increasingly severe at low elevation angles and for high latitude stations there is a broad azimuthal sector where the effects are especially severe owing to the very irregular nature of the polar ionosphere and the presence of the aurora.A program of measurements and data analysis is in progress, primarily centered at the Millstone Hill radar facilty, desiyonid:J evaluate tropospheric and ionospheric effects on radar measurements capability, with emphasis upon disturbed ionospheric conditions (,. "., Wa radio aurorae exist). The work is being undert <.en jointly by staff members of the Lincoln Laboratory and the Bell Telephone Laboratories. Emphasis in these measurements will be on attempting to separate and characterize the ionospheric and tropospheric components of refraction and scintillation. In order to do this, a UHF lobe-comparison satellite-beacon tracking capability is being added to the precise L-band tracking radar at Millstone. This will permit simultaneous dual-frequency measurements of angle-of-arrival, amplitude and phase fluctuations for paths traversing the polar ionosphere as well as in other directions less subject to propagation effects.

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Simultaneous very high frequency and ultra high frequency observations of the aurora at Fraserburgh, Scotland

Cited by 72 publications

References 27 publications

On the diurnal variation of the E-region coherent HF echo occurrence

On the diurnal variation of the E-region coherent HF echo occurrence

Radar auroral echo characteristics as seen by a 398-MHz phased array radar operated at Homer, Alaska

The Millstone Hill Propagation Study

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