Properties of the Neutral Density in the Polar Lower Thermosphere Determined by Incoherent Scatter Radar

The properties of the lower thermospheric neutral density are investigated using incoherent scatter radar technique. The data examined include 52 days of radar measurements from Chatanika, Alaska taken during the period 1976-1982, and one 6-day continuous period from Sonderstrom, Greenland taken dur...

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Bibliographic Details
Main Author: Reese, Kenneth W.
Other Authors: AIR FORCE INST OF TECH WRIGHT-PATTERSON AFB OH
Format: Text
Language:English
Published: 1990
Subjects:
Atmospheric Physics
Active & Passive Radar Detection & Equipment
*ATMOSPHERIC DENSITY
*RADAR REFLECTIONS
*THERMOSPHERE
IONS
POLAR REGIONS
MEASUREMENT
TEMPERATURE
INTERACTIONS
NEUTRAL
ALASKA
AUTOCORRELATION
THESES
BACKSCATTERING
INCOHERENCE
ELECTRONS
FORMATS
DIPOLES
INCOHERENT SCATTERING
OSCILLATION
COLLISIONS
MAGNETIC TAPE
GREENLAND
OUTPUT
ATMOSPHERIC TIDES
COMPUTER PROGRAMS
COUPLING(INTERACTION)
RADAR SCATTERING
INCOHERENT SCATTER RADAR
Greenland
Alaska
Online Access:http://www.dtic.mil/docs/citations/ADA227723
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA227723
Description
Summary:The properties of the lower thermospheric neutral density are investigated using incoherent scatter radar technique. The data examined include 52 days of radar measurements from Chatanika, Alaska taken during the period 1976-1982, and one 6-day continuous period from Sonderstrom, Greenland taken during the Lower Thermospherica Coupling Study (LTCS-1) in September, 1987. The data analyzed to determine average vertical profiles of the neutral density and to characterize the tidal oscillations of the neutral density in the lower thermosphere. Techniques and software have been developed to process incoherent frequency is the received on magnetic tapes in a standard output format. The ion-neutral collision frequency is the radar-derived parameter from which one can derive neutral density in the lower thermosphere. The complicated interaction of the radar with the plasma makes it possible for so many parameters of the plasma to be determined from the backscattered spectrum of radiation. In the E-region, the ion-neutral collision frequency is fit from the autocorrelation function (ACF) under the assumption that the ion and electron temperatures are equal. But in the polar lower thermosphere, there are processes that can cause thermal disequilibrium among the ions and electrons. The dominant interaction between ions and neutrals in the lower thermosphere is and induced dipole interaction. Total neutral number densities are derived from the ion- neutral collision frequencies using this theory. (Author) (jd)

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