Abstract
Conference Title: 2014 USNC-URSI Radio Science Meeting (Joint with AP-S Symposium) Conference Start Date: 2014, July 6 Conference End Date: 2014, July 11 Conference Location: Memphis, TN, USA Recently, Schelkunoff integrals were exploited to formulate a physics-based Green's function for analysis of vertical electric dipole radiation over an imperfect ground plane (W. Dyab, T. Sarkar, and M. Salazar-Palma, IEEE transactions on Ant. & Prop. vol. 61, no. 8, August 2013). Schelkunoff integrals were proved to be much more suitable for numerical computation than Sommerfeld integrals which are used conventionally to solve problems in multi-layered media. Schelkunoff integrals have no convergence problem on the tail of the contour of integration, especially when the fields are calculated near the boundary separating the media and for large source-receiver separations. On the other hand, however, Schelkunoff integrals suffer from convergence problems when the fields are to be calculated on the axis of the source. Since it is more practical for the fields to be calculated near the interface and not on the axis of the source, Schelkunoff integrals gain some research interest due to its numerical behavior in those regions. In this paper, Schelkunoff integrals are utilized to derive a Green's function for the case of a horizontal electric dipole radiating over an imperfect ground plane.