Analog Model 1972 Of The Arctic Ionosphere

Analog Model 1972 of the Arctic Ionosphere

Author : G. J. Gassmann

Publisher :

Page : 36 pages

File Size : 10,11 MB

Release : 1973

Category : Atmosphere, Upper

ISBN :

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Book Description

The report supplements earlier attempts at modelling. Its elements are the result of a group effort, which is continuing. The arctic ionosphere and its dynamics are described as a fairly self-consistent empirical quasi-instantaneous model, adaptable to later improvements. The definitions are in analog form using model, adaptable to later improvements. The definitions are in analog form using tables, graphs, and analytical formulas. The model parameters controlling the arctic ionosphere are substorm time and intensity and oval number Q. Emphasis is given as to how those parameters may be obtained in near-real-time. For this purpose, two superimposed coordinate systems and two reference latitudes are introduced. The model assumes absence of sunlight; it provides rules for adding the sunlit contribution and for matching the arctic model to the moderate-latitude ionosphere. (Author).



Detailed Specification of the Arctic Ionosphere and an Application to Three-dimensional Raytracing

Author : J. Buchau

Publisher :

Page : 32 pages

File Size : 29,47 MB

Release : 1973

Category : Arctic regions

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A statistical analysis of Alouette topside ionograms shows that the probability of occurrence of the midlatitude F-layer trough is 100 percent in winter and at equinox, and is 50 percent in summer. The trough, which is generally centered on 55 degrees corrected geomagnetic latitude and which is about 5 degrees to 10 degrees wide, extends throughout the night hemisphere with f(o)F2 values less than 2 MHz. Comparison of the location of the trough to the area in which coverage by an over the horizon backscatter (OTHB) system is anticipated shows that the trough will adversely affect system performance in the northeast direction most of the night. An in-depth case study of the effects of the trough on HF propagation was made, based on an instantaneous three-dimensional description of the ionosphere. This description of the ionosphere was composed of cross sections showing ionospheric electron-density structure in the area northeast of the Polar Fox II site. Three-dimensional raytracing was applied to this description of the ionosphere, and the trough and the steep electron-density gradient at the poleward edge of the trough were found to adversely affect propagation of HF signals. (Modified author abstract).









Compilation of Papers Presented by the Space Physics Division at the Ionospheric Effects Symposium (IES 1978).

Author : U.S. Air Force Geophysics Laboratory

Publisher :

Page : 166 pages

File Size : 43,44 MB

Release : 1978

Category : Astronautics

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Book Description

This is a compilation of seventeen (17) papers presented by the Space Physics Division at the 1978 Symposium on the Effect of the Ionosphere on Space and Terrestrial Systems. The symposium was jointly sponsored by the Naval Research Laboratory and the Office of Naval Research, January 24-26, 1978. The emphasis is on the occurrence of ionospheric irregularities and their effect on communication, radar and navigation systems.





Report on Research at AFCRL.

Author : Air Force Cambridge Research Laboratories (U.S.)

Publisher :

Page : 336 pages

File Size : 29,71 MB

Release : 1972

Category : Geophysics

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Ray-tracing Simulation of Swept-frequency Backscatter Ionograms

Author : Ming S. Wong

Publisher :

Page : 32 pages

File Size : 10,95 MB

Release : 1974

Category : Backscattering

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Book Description

Computed swept-frequency traces of minimum group-path in backscatter-radar ionograms are presented for ionospheric electron distributions in the polar region. Some of the traces for ground backscatter contain cusps that are shown to result when a small fraction of rays from the radar encounter a region in which the vertical electron-density gradient decreases sharply with distance after the rays passed through apogees. An accurate geomagnetic field model is used in obtaining traces for direct backscatter from field-aligned ionization that causes radar auroral clutter. A method is described for representing three-dimensional electron distributions. The method is sufficiently flexible for iterative ray computations, which appear as a reasonable and potentially reliable approach to the problem of converting backscatter-radar ionograms to electron distributions.