Phased Array Antennas: Floquet Analysis, Synthesis, BFNs, Metamaterial, and Active Array Systems 2nd Edition

Latest research and applications of analytical models and designs of phased array antennas and systems

Phased Array Antennas presents precise analytical models and designs of phased array antennas and systems in a logical and comprehensive manner starting from fundamental principles of phased array radiation. Numerous relevant and practical design examples and detailed derivations of theorems and concepts are included to make the book as self-contained as possible.

This new edition includes information on recent developments in the phased array arena published in journals and conference proceedings, a chapter devoted to metamaterial analysis from fundamental principles of electromagnetism, and the most updated phased array structures and beam formers.

The book is divided into three sections. The first section is mostly devoted to the development of the Floquet model-based approach for infinite and finite phased arrays. This section begins with an introduction of the traditional approach and its drawbacks. The second section presents applications of the Floquet modal analysis to important phased array structures. The third section covers several important aspects of a phased array design including array tolerance analysis.

Phased Array Antennas includes information on sample topics such as:

• Scan characteristics of a pencil beam array in light of gain, grating lobe, beam-width beam squint, and mitigation of beam-squint issue
• Scan characteristics of array-fed confocal reflectors
• The relationship between a Floquet mode and observable array parameters such as active element pattern, mutual coupling, scan blindness
• Generalized Scattering Matrix (GSM) approach to analyze multilayer array structures, including stacked patches, ring-slot radiators, FSS and screen polarizers
• Finite array modeling including the edge effects on input match and radiation pattern
• Characteristics of step and multi-flared horns for enhanced radiation efficiency
• Frequency selective surfaces, meander line polarizer screens, printed reflect-array antennas, metamaterial and their fundamental properties
• Beam formers, beam shaping algorithms, array system analysis and array tolerance analysis

Phased Array Antennas is an excellent reference for advanced graduate students who are seeking professional careers in antenna and microwave engineering as well as antenna design engineers and technical consultants seeking to understand and apply the latest Floquet model for analyzing practical phased array structures.

Arun K. Bhattacharyyaretired from RF Center of Excellence group of Lockheed Martin Space Systems in 2024. He also worked for Hughes Space and Communication (now Boeing) and Northrop space systems. He was an associate professor at the University of Saskatchewan, Canada and a visiting professor at Seoul National University, South Korea. He has authored over 100 technical papers and five book-chapters and has 25 issued patents. He is an IEEE fellow since 2002 and has received numerous awards including Hughes Technical Excellence award, Distinguished Engineer award at Northrop Grumman and the 2020 Extraordinary Engineering and Technology Award at Lockheed Martin Space.