A Low-Profile High-Performance Endfire Antenna Incorporating Parasitic Elements and Spoof Surface Plasmon Polaritons

In this letter, a low-profile high-performance endfire antenna incorporating parasitic elements and spoof surface plasmon polaritons (SSPPs) is proposed. The single-layer printed circuit board is designed based on SSPPs by adding a set of fan-structured parasitic elements to increase the gain. The feed structure is in the form of a substrate-integrated waveguide (SIW), which confines the electromagnetic waves to radiate forward within a fixed range. In addition, a significant increase in operating bandwidth is achieved through the addition of a V-notch to the front end of the SIW. The SSPPs-based endfire antenna was fabricated and experimentally evaluated, demonstrating inherently superior endfire radiation characteristics. Measurement results reveal that the antenna achieves consistent endfire radiation patterns with a peak gain of 16.4 dBi and a radiation efficiency exceeding 90% across a broad operational bandwidth spanning 17.34 to 28.12 GHz. These performance metrics suggest that the proposed antenna design is highly suitable for deployment in advanced microwave communication systems, offering a promising solution for applications requiring high gain, efficiency, and wideband functionality.