Electromagnetic analysis of an antenna embedded in a composite environment

This paper addresses the problem of an antenna embedded in a hole dug in the ground. The composite medium configuration consists of a half-space dielectric (representing the Earth-air interface) containing a cylindrical hole filled with a different dielectric medium. The wire antenna resides within...

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Veröffentlicht in:	IEEE transactions on antennas and propagation 2001-05, Vol.49 (5), p.688-696
Hauptverfasser:	Pasvolsky, Joel, Kastner, Raphael, Heyman, Ehud, Boag, Amir
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Sprache:	eng
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creator	Pasvolsky, Joel Kastner, Raphael Heyman, Ehud Boag, Amir
description	This paper addresses the problem of an antenna embedded in a hole dug in the ground. The composite medium configuration consists of a half-space dielectric (representing the Earth-air interface) containing a cylindrical hole filled with a different dielectric medium. The wire antenna resides within this hole, on the axis. The solution strategy is based on decomposing the problem into simpler subproblems, which are treated sequentially. First, we calculate a numerical dyadic Green's function for the composite medium by solving an integral equation formulated over a background consisting of the unperturbed dielectric half space (for which the Green's functions are known in a spectral integral form). This integral equation is solved via the fictitious currents method, which is a special case of the Method of Moments. We then solve the integral equation for the antenna currents using this numerical Green's function and determine the input impedance and radiation pattern. (Author)
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The composite medium configuration consists of a half-space dielectric (representing the Earth-air interface) containing a cylindrical hole filled with a different dielectric medium. The wire antenna resides within this hole, on the axis. The solution strategy is based on decomposing the problem into simpler subproblems, which are treated sequentially. First, we calculate a numerical dyadic Green's function for the composite medium by solving an integral equation formulated over a background consisting of the unperturbed dielectric half space (for which the Green's functions are known in a spectral integral form). This integral equation is solved via the fictitious currents method, which is a special case of the Method of Moments. We then solve the integral equation for the antenna currents using this numerical Green's function and determine the input impedance and radiation pattern. 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title	Electromagnetic analysis of an antenna embedded in a composite environment
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