Free Space Optical True Time Delay for Beam Steering - Nahar, Niru
32,99 €
inkl. MwSt.
Versandkostenfrei*
Versandfertig in 6-10 Tagen
  • Broschiertes Buch

Optical true time delay (OTTD) techniques are promising for squint-free beam steering of RF/ microwave phased array antennas (PAAs) that have wide frequency bandwidth, are compact in size, lightweight, and are not prone to electromagnetic interference. This book is an excellent reference for the topics related to wideband beam-steering arrays with optical true time delay Engine. At a glance, this book includes In depth discussion on the feasibility of using large-mode-area (LMA) photonic crystal fibers (PCF) as delay elements in White cell OTTD to produce delays with optimum loss and volume.…mehr

Andere Kunden interessierten sich auch für
Produktbeschreibung
Optical true time delay (OTTD) techniques are promising for squint-free beam steering of RF/ microwave phased array antennas (PAAs) that have wide frequency bandwidth, are compact in size, lightweight, and are not prone to electromagnetic interference. This book is an excellent reference for the topics related to wideband beam-steering arrays with optical true time delay Engine. At a glance, this book includes In depth discussion on the feasibility of using large-mode-area (LMA) photonic crystal fibers (PCF) as delay elements in White cell OTTD to produce delays with optimum loss and volume. Presents a unique insight to the challenges and solutions both in the RF and optical domains for the efficient demonstration of beam-steering. Provides numerous numerical simulations for both optical and RF systems for optimal design characterization. Integrates Wideband RF antennas with the Optical TTD engines to optimize the losses of the hybrid system. Detailed experimental setupfor optical systems, system alignment steps and design of array for laboratory demonstration.
Autorenporträt
Dr. Niru K. Nahar and Prof. Roberto G. Rojas are with the ElectroScinece Laboratory of Electrical and Computer Engineering Dept. at The Ohio State University. Their current research interests include photonic crystal fibers, free-space optics, OTTD engine, wideband antenna array, and optical and THz sensors and materials.