Microwave Photonics - by Jianping Yao & José Capmany & Ming Li (Hardcover)

About the Book

"This book offers an overview of the microwave photonic techniques developed in the last 30 years, covering topics such as photonics generation of microwave signals, photonics processing of microwave signals, photonics distribution of microwave signals, photonic generation and distribution of UWB signals, photonics generation and processing of arbitrary microwave signals, photonic true time delay beamforming for phased array antennas, photonics-assisted instantaneous microwave frequency measurement, and more. Quantum microwave photonics is introduced, discussing weak signal detection and compressed sensing amongst other aspects, and analog-to-digital conversion is included, with photonic sampling and conversion systems. Written by key researchers in the field, this book is supported by a companion website for instructors, including learning objectives and questions or problems"--

Book Synopsis

MICROWAVE PHOTONICS

Overview of techniques in the field of microwave photonics, including recent developments in quantum microwave photonics and integrated microwave photonics

Microwave Photonics offers a comprehensive overview of the microwave photonic techniques developed in the last 30 years, covering topics such as photonics generation of microwave signals, photonics processing of microwave signals, photonics distribution of microwave signals, photonic generation and distribution of UWB signals, photonics generation and processing of arbitrary microwave waveforms, photonic true time delay beamforming for phased array antennas, photonics-assisted instantaneous microwave frequency measurement, quantum microwave photonics, analog-to-digital conversion and more.

The text is supported by a companion website for instructors, including learning objectives and questions/problems to further enhance student learning.

Written by key researchers in the field, Microwave Photonics includes information on:

• Group-velocity dispersion and nonlinear effects in fibers, light coherence in light sources, phase and intensity modulators, photodetectors, and fiber Bragg gratings
• Injection locking, phase lock loops, external modulation, opto-electronic oscillators, and array waveguide gratings
• Photonic microwave delay-line filters with negative and complex coefficients and non-uniformly spaced photonic microwave delay-line filters
• Double- and single-sideband modulation, radio over fiber networks, and microwave photonics to coherent communication systems
• UWB generation, coding, and distribution over fiber, and instantaneous microwave frequency measurement via power monitoring
• True time delay beamforming

Exploring the subject in depth, with expansive coverage of techniques developed in the last 30 years, Microwave Photonics is an essential reference for graduate students and researchers to learn microwave photonic technologies.

From the Back Cover

Overview of techniques in the field of microwave photonics, including recent developments in quantum microwave photonics and integrated microwave photonics

Microwave Photonics offers a comprehensive overview of the microwave photonic techniques developed in the last 30 years, covering topics such as photonics generation of microwave signals, photonics processing of microwave signals, photonics distribution of microwave signals, photonic generation and distribution of UWB signals, photonics generation and processing of arbitrary microwave waveforms, photonic true time delay beamforming for phased array antennas, photonics-assisted instantaneous microwave frequency measurement, quantum microwave photonics, analog-to-digital conversion and more.

The text is supported by a companion website for instructors, including learning objectives and questions/problems to further enhance student learning.

Written by key researchers in the field, Microwave Photonics includes information on:

• Group-velocity dispersion and nonlinear effects in fibers, light coherence in light sources, phase and intensity modulators, photodetectors, and fiber Bragg gratings
• Injection locking, phase lock loops, external modulation, opto-electronic oscillators, and array waveguide gratings
• Photonic microwave delay-line filters with negative and complex coefficients and non-uniformly spaced photonic microwave delay-line filters
• Double- and single-sideband modulation, radio over fiber networks, and microwave photonics to coherent communication systems
• UWB generation, coding, and distribution over fiber, and instantaneous microwave frequency measurement via power monitoring
• True time delay beamforming

Exploring the subject in depth, with expansive coverage of techniques developed in the last 30 years, Microwave Photonics is an essential reference for graduate students and researchers to learn microwave photonic technologies.

About the Author

Jianping Yao is a Distinguished Professor and University Research Chair in Microwave Photonics in the School of Electrical Engineering and Computer Science (EECS), University of Ottawa, Ottawa, Ontario, Canada.

José Capmany is a Full Professor of photonics and the Leader of the Photonics Research Labs, Institute of Telecommunications and Multimedia Applications, Universitat Politècnica de València, Valencia, Spain.

Ming Li is a Full Professor with the Institute of Semiconductors, Chinese Academy of Sciences, Beijing, China.