Photonic signals and systems : an introduction / Nabeel A. Riza, Ph. D., Department of Electrical and Electronic Engineering, University College Cork, Cork, Ireland.

Format:

Book

Author/Creator:

Riza, Nabeel A., Author.

Language:

English

Subjects (All):

Signal processing--Industrial applications.

Signal processing.

Optical communications.

Photonics.

Physical Description:

1 online resource (xv, 368 p.) : ill.

Edition:

1st edition

Other Title:

Photonic Signals and Systems

Place of Publication:

New York : McGraw-Hill, 2013.

Language Note:

English

System Details:

text file

Summary:

Build the skills needed to engineer next-generation systems using light Photonic Signals and Systems: An Introduction presents essential and current knowledge of light applied in the design of innovative photonic systems that engage both optical and electrical signals. The book demonstrates how to design photonic systems operating within the required approximations of the deployed photonic devices, mathematics of signal processing, and optical phenomena. Systems problems are solved using a variety of mature optical technologies, such as acousto-optics, liquid crystals, liquid optics, optical micro-electro-mechanical systems (MEMS), bulk optics, integrated optics, and optical fibers. End-of-chapter problems and solutions reinforce a thorough understanding of the material. Contents include: Nature of light Electromagnetic waves, light, and polarization Interference, coherence, and diffraction Optical building blocks—components Photonic systems using optical micro-electro-mechanical systems devices Photonic systems using acousto-optic devices Photonic systems using liquid crystal and liquid devices Optical experiments

Contents:

Cover

About the Author

Title Page

Copyright Page

Dedication

Contents

Foreword

Acknowledgments

1 Introduction

Why You Should Read This Book

The Book Subject: Photonic Signals and Systems

Applications

The Concluded Learning Experience

2 Nature of Light

Light Propagation

Nature of Light from Its Early Beginnings

Negative Refractive Index

Photon: The Light Particle and Its Application-Photonics

Mechanical Motion of Matter with Light

Optoelectronics: Photons and Electrons

The Laser

The Fundamental Forces of Matter and Photonics

Problems

Additional Reading

3 Electromagnetic Waves, Light, and Polarization

Electromagnetic Waves and Polarization

Mathematical Formalization of Traveling Waves

EM Radiation, Media, and Polarization

Maxwell's Equations for Traveling Waves and Polarization

Real- and Complex-Wave Representations

Complex Index of Refraction and Evanescent (Surface) Waves

Total Internal Reflection and the Evanescent Wave

Group Velocity and Dispersion

Polarization Representations

4 Interference, Coherence, and Diffraction

Interference

Interference in the RF Regime of the EM Spectrum

Interference in the Optical Regime of the EM Spectrum

Interference of Two Optical Beams

Visualizing Coherence of a Wave

Plane-Wave Interference via the Plane-Wave Function

Heterodyne Interferometry-RF Generation via Photo-Detection

Diffraction

5 Optical Building Blocks: Components

Acousto-Optic Devices

Liquid Crystal Devices

Mechanical Devices

Fiber-Optic Devices

Planar-Optics and Integrated-Optic (Waveguide) Devices

6 Photonic Systems Using Optical Micro-Electro-Mechanical Systems Devices.

Design Problem 6.1: Digital Micromirror Device-Based All-Digital-Mode Laser-Beam-Profiler

Design Problem 6.2: Input-Power Fluctuations Insensitive DMD-Based Profiler

Design Problem 6.3: DMD-Based Profiler Non-Gaussian Laser-Beam Profiling

Design Problem 6.4: DMD-Based Profiler Incoherent-Light 2D Imaging

Design Problem 6.5: DMD-Based Profiler Incoherent-Light 3D Imaging

Design Problem 6.6: M[sup(2)] Measurement Method to Characterize Non-Gaussian Beams

Design Problem 6.7: High-Dynamic-Range Broadband Fiber-Optic Variable

Design Problem 6.8: High-Dynamic-Range Broadband Fiber-Optic VOA with Graceful Beam Control

Design Problem 6.9: Fault-Tolerant 100-Percent-Reliable Broadband Fiber-Optic VOA

Design Problem 6.10: Fault-Tolerant High-Dynamic-Range Fiber-Optic VOA

Design Problem 6.11: Fault-Tolerant Fiber-Optic Multiwavelength Equalizer

Design Problem 6.12: Continuous-Spectrum DMD-Based Equalizer

Design Problem 6.13: Digital Micromirror Device-Based Multi-Wavelength Add-Drop Routing Module

Design Problem 6.14: Array of One-by-Two Fiber-Optic Switches and VOAs

Design Problem 6.15: Long Time Delay and High- Resolution Photonic-Delay Line

Design Problem 6.16: Switchless Long Time Delay and High-Resolution Photonic-Delay Line

Design Problem 6.17: All-Optical Coder/Decoder Using Wavelengths and DMD

Design Problem 6.18: Large-Scale Low-Loss Fiber-Optic Switch (Cross-Connect)

7 Photonic Systems Using Acousto-Optic Devices

Design Problem 7.1: High-Stability AO Interferometer for Test and Measurement

Design Problem 7.2: High-Stability 1D Spatial-Scanning AO Interferometer

Design Problem 7.3: Frequency-Coded RF Phased-Array Antenna Beam Steering

Design Problem 7.4: Full Calibration RF Phased-Array Antenna Beam Steering.

Design Problem 7.5: Instantaneous Operation Wideband RF-Spectrum Analyzer

Design Problem 7.6: Efficient Free-Space to Single-Mode Fiber (SMF) Light Coupling

Design Problem 7.7: Fiber-Optic Variable Optical Attenuator (VOA) Using Single AOD

Design Problem 7.8: High-Dynamic-Range Fiber-Optic Variable Optical Attenuator (VOA) Using an AOD

Design Problem 7.9: High-Dynamic-Range Fiber-Optic Variable Optical Attenuator (VOA) Using AODs

Design Problem 7.10: Bulk AOTF-Based Multi-Wavelength Variable Optical Attenuator (MVOA)

Design Problem 7.11: Analog RF Transversal Filter Design Using AOTF

8 Photonic Systems Using Liquid Crystal and Liquid Devices

Design Problem 8.1: Liquid Crystal Analog Fiber-Optic Variable Optical Attenuator (VOA)

Design Problem 8.2: Liquid-Crystal-Based Polarization Dependent-Loss (PDL) Compensator

Design Problem 8.3: Liquid Crystal Deflector Fiber-Optic VOA

Design Problem 8.4: Wavelength-Tunable Fiber-Optic VOA Using Liquid Crystal Controls

Design Problem 8.5: Multi-Wavelength Wavelength Fiber-Optic VOA Using Liquid Crystal Controls

Design Problem 8.6: Liquid Crystal Freespace 1 × 2 Switch Using Cube PBS

Design Problem 8.7: Higher-Performance LC Freespace 1 × 2 Switch Using Cube PBS

Design Problem 8.8: Low-Noise LC 1-Bit Freespace TDU Using PBSs

Design Problem 8.9: SMF Optical TDU Using LC Polarization Control

Design Problem 8.10: 2 × 2 Fiber-Optic Switch Using LC Devices and Cube PBSs

Design Problem 8.11: Fast Reset-Speed Variable Focal-Length Lens Using LCs

Design Problem 8.12: Zero Propagation-Loss Variable-Link Distance Optical Wireless Communications

Design Problem 8.13: Fast 3D Optical Sensing and Imaging

Design Problem 8.14: Fast 1D Optical Sensing and Imaging Using Multiple Wavelengths.

Design Problem 8.15: Fast 1D Interferometric Optical Sensing and Imaging Using Multiple Wavelengths

Design Problem 8.16: Intracavity Sensing and Imaging Using Multiple Wavelengths

Design Problem 8.17: Smart High-Resolution Laser-Scanning Display

Design Problem 8.18: Optical Distance Sensor Without Time Processing

9 Optical Experiments

Experiment 9.1: Laser Beams

Experiment 9.2: Incoherent-Light Imaging

Experiment 9.3: Coherent-Light Focusing

Experiment 9.4: Coherent-Light Imaging

Experiment 9.5: Coherent-Light Fourier Transforms

Experiment 9.6: Optical-Phase Retardation

Experiment 9.7: Free-Space Optical Switching Using Polarization

Experiment 9.8: Acousto-Optical Modulation of Laser Beams

Experiment 9.9: Acousto-Optical Interferometry of Laser Beams

Experiment 9.10: Optical Fibers and Fiber Lenses and Mirrors

Problem Solutions

Index.

Notes:

Bibliographic Level Mode of Issuance: Monograph

Includes bibliographical references and index.

Description based on publisher supplied metadata and other sources.

ISBN:

9780071700795

007170079X

9780071700801

0071700803

OCLC:

857717543