Low-Profile Multibeam Antenna Based on Modulated Metasurface

Abstract

Linearly polarized (LP) multi-port multi-beam antennas (MBAs) based on modulated metasurface (MTS) are presented in this paper. A key challenge for MTS to generate multiple independent beams is the mutual interference of different impedance modulations. This interference can lead to reduced directivities of main beams and high side lobe levels (SLLs). A full-wave based optimization for a large number of beams is significantly time consuming and practically ineffective. The source locations are optimized here by employing the aperture field calculated from a zeroth-order approximation (ZOA) of the currents on the surface. This provides a good preliminary accuracy without any full-wave analysis. The relevant design method is verified by two examples of 3-beam and 7-beam MTS antennas. Furthermore, the 7-beam MTS antenna is fabricated and successfully measured. The measurements show a measured realized gain of 20 dBi at 14.10 GHz with a beam coverage (10-dB overlap) up to ±36°. It is seen that the same performance requires larger areas with conventional summation of apertures.