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A detailed analysis of a prolate hemispheroidal dielectric resonator antenna excited by a rectangular slot aperture is presented. The dyadic Green s functions pertaining to a magnetic-current source located in a dielectric spheroid is derived and expressed in a form convenient for numerical computations. The dyadic Green s functions are then employed to formulate the electromagnetic fields radiated by a prolate hemispheroidal dielectric resonator antenna. The electromagnetic far field is expressed, in a compact form, analytically. Furthermore, algorithms for computing the prolate spheroidal…mehr

Produktbeschreibung
A detailed analysis of a prolate hemispheroidal dielectric resonator antenna excited by a rectangular slot aperture is presented. The dyadic Green s functions pertaining to a magnetic-current source located in a dielectric spheroid is derived and expressed in a form convenient for numerical computations. The dyadic Green s functions are then employed to formulate the electromagnetic fields radiated by a prolate hemispheroidal dielectric resonator antenna. The electromagnetic far field is expressed, in a compact form, analytically. Furthermore, algorithms for computing the prolate spheroidal wave functions are developed and implemented using the software package MATLAB.
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Autorenporträt
Yunpeng Song received the M.Sc. degree in electrical engineering from Concordia University, Canada. He is currently working toward the Ph.D. degree at McMaster University, Canada. His research interests include computational EM, antennas and advanced EM system analysis. He joined Finisar Corporation, USA, as an RF Design Engineer in 2008.