Antenna Physical Poles Extracted From Measured Backscattered Fields

Abstract

This paper presents a new approach to extract the physical poles of antennas. The singularity expansion method (SEM) allows modeling the antenna backscattering using poles which are theoretically independent of the wave incident angle, making them useful for antenna identification. Nevertheless, only the physical poles respect this property while the spurious poles change for each incident angle. Indeed, we call the poles linked to the antenna itself as “physical” and the poles linked to anything but the antenna as “spurious”(excitation, noise, etc.). The goal of this paper is to highlight the method to define the optimal time windowing applied on the antenna backscattering in order to obtain the physical poles of the antenna. The approach is based on the window decreasing technique (WDT) and the window increasing technique. The SEM is applied on the backscattered field measured in the boresight direction of three antennas: 1) a narrowband patch antenna; 2) a wideband helix antenna; and 3) a UWB antenna. Using these poles to reconstruct the field backscattered in several directions, we show that the poles extracted from one direction with this new approach are relevant to reconstruct the backscattered field for any other directions. Moreover, we show that these poles can be extracted directly from these other directions.