Ionospheric Scintillations and In-Situ Measurements at an Auroral Location in the European Sector

The orbiting HiLat satellite offered a unique opportunity for studying the ionospheric scintillation parameters in relation to the in-situ measurements of ionization density, drift velocity, field-aligned current, and particle precipitation during the sunspot minimum period. This paper discusses the...

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Bibliographic Details
Main Authors: Basu, Santimay, Basu, Sunanda, MacKenzie, Eileen, Weimer, Dan
Other Authors: EMMANUEL COLL BOSTON MA
Format: Text
Language:English
Published: 1988
Subjects:
Atmospheric Physics
*IONOSPHERIC SCINTILLATION
*AURORAE
STATIONS
ELECTROMAGNETIC FIELDS
IONOSPHERE
POLAR REGIONS
PROPAGATION
REPRINTS
MEASUREMENT
OPTIMIZATION
DYNAMICS
PARAMETERS
ELECTRON DENSITY
MORPHOLOGY
PATHS
PHASE
ALIGNMENT
SHORT RANGE(TIME)
SPECTRA
PRECIPITATION
DRIFT
PARTICLES
SEASONAL VARIATIONS
SCALE
LENGTH
ANISOTROPY
SLOPE
GEOMETRY
IONIZATION
SOLAR ACTIVITY
HIGH LATITUDES
SOLAR CYCLE
MAGNETOSPHERE
SUNSPOTS
SCINTILLATION
ION DENSITY
VELOCITY
COUPLING(INTERACTION)
TOTAL ELECTRON CONTENT
HILAT SATELLITE
AURORAL OVAL
PE62101
WUAFGL46430903
Norway
Tromso
Online Access:http://www.dtic.mil/docs/citations/ADA200761
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA200761
Description
Summary:The orbiting HiLat satellite offered a unique opportunity for studying the ionospheric scintillation parameters in relation to the in-situ measurements of ionization density, drift velocity, field-aligned current, and particle precipitation during the sunspot minimum period. This paper discusses the results of such a morphological study based on observations at the auroral oval station of Tromso, Norway. The dynamics of the spatial and temporal extent of this region are illustrated in the invariant latitude/magnetic local time grid. The geometrical enhancement of scintillations observed during the alignment of the propagation path with the local magnetic L-shell is shown to be the most consistent and conspicuous feature of scintillations in the nighttime auroral oval. The steepening of phase spectral slope in this region is indicative of the presence of L-shell aligned sheet-like irregularities at long scale lengths. The seasonal variational of total electron content (TEC) determined from the differential Doppler measurements of HiLat transmissions is discussed in relation to the in-situ density measurements at 830 km. The results are also utilized to illustrate the dependence of ionospheric structure parameters on short-term variability of solar activity during the sunspot minimum period. Special effort is made to illustrate that the joint study of scintillation/TEC and in-situ parameters provides an insight into the nature of magnetospheric coupling with the high latitude ionosphere. Keywords: Amplitude and phase scintillations; Total electron content; In-situ density; Auroral oval; Sunspot cycle variation; Irregularity anisotropy; Reprints. Pub. in AGARD Conference Proceedings, n419 p50-1 thru p50-12 May 1987.

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