Alper K. Ozturk scite author profile

Numerical diffraction coefficients are presented for vertex-diffracted edge waves induced on an infinitely-thin, perfectly conducting, semi-infinite plane angular sector. The current density on the surface of the plane angular sector is modeled using the physical theory of diffraction (PTD). The vertex-diffracted currents are defined as the difference between the exact and the PTD currents. The difference current is then modeled as a wave traveling away from the corner with unknown amplitude and phase factors. The unknown coefficients for the vertex-diffracted currents are calculated by using a least squares fit approximation. The vertex-diffracted currents are successfully modeled even for narrow angular sectors. The vertex-diffracted currents provide a substantial improvement to the accuracy of RCS patterns in off-specular directions.

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Coupling analysis of electrically large antennas using the equivalence principle

Köksoy

Ozturk

2014

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Equivalent current modeling of antenna radiation

Ozturk

2015

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Alper K. Ozturk

Antenna-Pattern Measurement Using Spectrum Analyzer for Systems with Frequency Translation [Measurements Corner

First-Order Singular Basis Functions for Corner Diffraction Analysis Using the Method of Moments

Vertex Diffracted Edge Waves on a Perfectly Conducting Plane Angular Sector

Coupling analysis of electrically large antennas using the equivalence principle

Equivalent current modeling of antenna radiation

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