Computer Science – Numerical Analysis
Scientific paper
Feb 1975
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1975phdt.........4c&link_type=abstract
Ph.D. Thesis Colorado Univ., Boulder.
Computer Science
Numerical Analysis
Atmospheric Models, Earth Ionosphere, Radiation Distribution, Wave Propagation, Computer Programs, Computer Techniques, Fourier Transformation, Numerical Analysis
Scientific paper
The plane earth model was adopted and a horizontal stratified multiple slab system was used to approximate the continuously varying ionosphere. The ionosphere is represented by a cold plasma model including collisions between various species. The effect of the geomagnetic field with an arbitrary dip angle is included. The radiation field due to an electric or a magnetic dipole in the ionosphere is formulated; the line sources and plane sources are also considered. The fullwave treatment was used to properly account for the model couplings and internal reflections. The formal solutions for the six Cartesian field components at various interfaces are given explicitly. Extensive numerical results for fields on the earth surface for three north-to-south line sources of uniform electric dipoles with different orthogonal orientations are calculated and presented for various frequencies, dip angles, and antenna heights. The fields are given as function of distance from sub-antenna point up to ten megameters for both east-to-west and west-to-east propagation.
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