Unbalanced CRLH Leaky-wave Antenna With Broadside Radiation Based On Spin Photonic Topological Insulator Featured Hexagonal Configuration In Armchair Arrangement

TL;DR

This paper introduces a novel unbalanced CRLH leaky-wave antenna based on spin photonic topological insulators with broadside radiation, wide scanning range, and stable performance across broadside, representing a significant advancement in antenna design.

Contribution

It presents the first unbalanced CRLH leaky-wave antenna utilizing spin photonic topological insulators with broadside radiation and stable performance during broadside transition.

Findings

Achieves a 53-degree scanning range.

Provides a 2.7 GHz bandwidth.

Maintains performance at broadside transition.

Abstract

A new X-band leaky-wave antenna has been developed using spin photonic topological insulators. This antenna features a hexagonal unit cell arranged in an armchair configuration. This arrangement provides advantages over the zigzag configuration, particularly by offering a wider operational region and a more suitable pattern. To design the structure, a parametric study on the cell dimensions has been conducted, and another study has designed the transition region to couple the topological structure with the classical line. The proposed antenna has a low profile and illuminates two sides of the structure simultaneously. Additionally, it offers a 53-degree scanning range and a bandwidth of 2.7 GHz, making it a groundbreaking improvement over other leaky-wave antennas that utilize photonic topological insulators. The proposed antenna is an unbalanced CRLH leaky-wave antenna capable of radiating in both backward and forward directions. Notably, as it transitions through the broadside within its scanning range, there is no significant drop in performance, even in the presence of an open stop band. To the best of our knowledge, this characteristic is unique among unbalanced CRLH leaky-wave antennas.