Dielectric Resonator Antennas 1st Edition

Capture the cutting edge of antenna engineering with Dielectric Resonator Antennas, 1st Edition by Zhijiao Chen, Jing-Ya Deng, and Haiwen Liu. This authoritative volume brings clear, practical guidance to the theory and design of Dielectric Resonator Antennas (DRA), the compact high-performance radiators powering modern microwave, millimeter‑wave, and 5G systems.

Start with a concise presentation of DRA fundamentals—resonance behavior, mode analysis, and material considerations—then move swiftly into applied topics: feeding techniques, bandwidth enhancement, polarization control, MIMO configurations, and array design. Rich examples, annotated diagrams, and step‑by‑step design workflows make complex electromagnetic concepts accessible to practicing engineers, researchers, and graduate students.

Why this book matters: DRAs offer exceptional efficiency, low loss, and versatile form factors for wireless, satellite, radar, and IoT applications. The authors combine theoretical rigor with real-world design recipes and performance tradeoffs, enabling readers to simulate, prototype, and optimize antennas across frequencies and use cases.

Whether you’re developing next‑generation base stations in Europe, mm‑wave transceivers in North America, or compact terminals in Asia, this edition equips you with the tools to accelerate innovation. Clear notation, practical tips, and up‑to‑date references make it an indispensable reference for lab bench and classroom alike.

Add Dielectric Resonator Antennas, 1st Edition to your professional library today—an essential resource for mastering DRA technology and advancing wireless system design worldwide.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.