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Infrared and Millimeter Waves, Volume 16: Electromagnetic Waves in Matter, Part III deals with electromagnetic devices based on infrared and millimeter waves. This book covers infrared optoacoustics; freestanding fine-wire grids for use in millimeter- and submillimeter-wave spectroscopy; and population inversion and far-infrared (FIR) emission of hot electrons in semiconductors. The theory on distributed feedback lasers with weak and strong modulations is also considered. This monograph is comprised of six chapters and begins with a discussion on the optoacoustic effect in the infrared, with emphasis on where optoacoustics and infrared physics combine in the areas of Fourier spectroscopy, optically pumped FIR lasers, and photothermal non-destructive remote material evaluation. The next chapter presents the basic principles of the theory on distributed feedback lasers with weak and strong modulations, together with results of analytical and numerical calculations. The following chapters focus on the construction of freestanding fine-wire grids for use in millimeter- and submillimeter-wave spectroscopy; general equations for the mean distance between impurity ions in solid-state devices, signal vectors in communication theory, and stars in the solar neighborhood; and prospects for hot-carrier systems in active FIR solid-state devices. The final chapter is devoted to quenched germanium and its FIR optical properties. This text will be a valuable resource for physicists and electronics and electrical engineers.
This book offers a comprehensive overview of design and analysis of microwave devices and circuits for 5G and beyond wireless communication systems. It focuses on modern microwave antennas, filters, metamaterials, and MIMO systems. It includes a design approach based on Artificial Intelligence and the practical use of microwave devices and circuits in commercial, medical, and military applications. Microwave Devices and Circuits for Advanced Wireless Communications: Design and Analysis explores the performance of microwave devices and circuits by highlighting the difficulties encountered by researchers and designers such as latency, interoperability, wireless coexistence, data streaming, safety, security, and privacy. The book explores the most important aspects of antenna design, including radiation pattern control, impedance matching with bandwidth improvement, and gain enhancement. It also examines different categories of metasurfaces, including frequency-selective surfaces (FSS) and electromagnetic bandgap (EBG) structures, and their distinct roles in antenna design. Additionally, the book examines concepts such as ultra-wideband (UWB) radar for 5G millimeter wave applications, and advanced techniques such as synthetic aperture radar (SAR), beam-forming, compressed sensing, and diffraction tomography for enabling high-resolution imaging across wider application areas. The authors also present an overview on applying machine learning (ML) techniques to advanced wireless communication for signal-processing tasks such as signal denoising, equalization, and modulation recognition. They then discuss the potential significance of UAV communication systems in achieving seamless connection, quality of service (QoS), as well as the difficulties and potential remedies involved in building dependable networks using UAVs. Throughout the book the authors offer a critical assessment of the strengths and limitations of each topic and approach presented, thus providing valuable guidance for future research in this exciting field. This book will be helpful for graduate students, researchers, and engineers working in the area of design and reliability of circuits for microwave and communication systems.
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