Title :
Dipole radiation over an inhomogeneous thin sheet
Author :
Geyer, Richard G. ; Wait, James R.
Author_Institution :
Nat. Inst. of Stand. & Technol., Boulder, CO, USA
fDate :
10/1/2000 12:00:00 AM
Abstract :
A general Sommerfeld integral formulation is given for the electromagnetic (EM) fields of an oscillating vertical magnetic or electric dipole over an electrically inhomogeneous thin sheet. The electrical properties of the sheet are characterized by a conductance function that is an arbitrary function of spatial coordinates. When the conductance function has axial symmetry relative to the source dipole, the general solution form simplifies to a Fredholm integral equation of the third kind. The general solution is shown to reduce to the special case of an infinite sheet having uniform conductance. When the sheet conductance is either uniform or varies linearly, the field expressions show an algebraic dependence on the conductance. For a general inhomogeneous conductance distribution, the field dependence is not algebraic
Keywords :
Fredholm integral equations; antenna radiation patterns; dipole antennas; electric admittance; electromagnetic fields; inhomogeneous media; EM fields; Fredholm integral equation; Sommerfeld integral formulation; axial symmetry; conductance function; dipole antenna; dipole radiation; electromagnetic fields; general inhomogeneous conductance distribution; inhomogeneous thin sheet; oscillating vertical electric dipole; oscillating vertical magnetic dipole; sheet conductance; source dipole; spatial coordinates; Antennas and propagation; Conducting materials; Dipole antennas; Directive antennas; Electromagnetic radiation; Magnetic separation; Magnetosphere; Nonuniform electric fields; Reflector antennas; Surface waves;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
