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This book provides a comprehensive overview of the photonic sensing field by covering plasmonics, photonic crystal, and SOI techniques from theory to real sensing applications. A literature review of ultra-sensitive photonic sensors, including their design and application in industry, makes this a self-contained and comprehensive resource for different types of sensors, with high value to the biosensor sector in particular. The book is organized into four parts: Part I covers the basic theory of wave propagation, basic principles of sensing, surface plasmon resonance, and silicon photonics;…mehr
This book provides a comprehensive overview of the photonic sensing field by covering plasmonics, photonic crystal, and SOI techniques from theory to real sensing applications. A literature review of ultra-sensitive photonic sensors, including their design and application in industry, makes this a self-contained and comprehensive resource for different types of sensors, with high value to the biosensor sector in particular. The book is organized into four parts: Part I covers the basic theory of wave propagation, basic principles of sensing, surface plasmon resonance, and silicon photonics; Part II details the computational modeling techniques for the analysis and prediction of photonic sensors; Part III and Part IV cover the various mechanisms and light matter interaction scenarios behind the design of photonic sensors including photonic crystal fiber sensors and SOI sensors. This book is appropriate for academics and researchers specializing in photonic sensors; graduate students in the early and intermediate stages working in the areas of photonics, sensors, biophysics, and biomedical engineering; and to biomedical, environmental, and chemical engineers.
Mohamed Farhat O. Hameed is an Associate Professor at the Center for Photonics and Smart Materials, and Nanotehcnology Engineering Program, Zewail City of Science and Technology, Giza, Egypt. M. Hameed is also with Mathematics and Engineering Physics Department, Faculty of Engineering, Mansoura University, Mansoura, Egypt
Salah Obayya is Professor of Photonics and Director of the Center for Photonics and Smart Materials at the Zewail City of Science and Technology, Giza, Egypt. S. Obayya is also with Electronics and Communication Engineering Department, Faculty of Engineering, Mansoura University, Mansoura, Egypt
Inhaltsangabe
Part 1. Fundamentals.- Introduction to Optical Waveguides.- Fundamentals of Photonic Crystals.- Basic Principles of Surface Plasmon Resonance.- Introduction to Silicon Photonics.- Basic Principles of Biosensing.- Part 2. Computational Modeling Techniques.- Finite Element Method for Sensing Applications.- FDTD in Cartesian and Spherical Grids.- Part 3. Photonic Crystal Fiber Sensors.- Temperature Sensors Based on Plasmonic Photonic Crystal Fiber.- Microstructured Optical Fiber Based Plasmonic Sensors.- Multifunctional Plasmonic Photonic Crystal Fiber Biosensors.- Photonic Crystal Fiber Pressure Sensors.- Development of Photonic Crystal Fiber Based Gas/Chemical Sensors.- Part 4. Silicon-on-Insulator Sensors.- Silicon Nanowires for DNA Sensing.- Compact Photonic SOI Sensors.- Silicon Ring-Resonator Based Biochips.- SOI Waveguide Based Biochemical Sensors.
Part 1. Fundamentals.- Introduction to Optical Waveguides.- Fundamentals of Photonic Crystals.- Basic Principles of Surface Plasmon Resonance.- Introduction to Silicon Photonics.- Basic Principles of Biosensing.- Part 2. Computational Modeling Techniques.- Finite Element Method for Sensing Applications.- FDTD in Cartesian and Spherical Grids.- Part 3. Photonic Crystal Fiber Sensors.- Temperature Sensors Based on Plasmonic Photonic Crystal Fiber.- Microstructured Optical Fiber Based Plasmonic Sensors.- Multifunctional Plasmonic Photonic Crystal Fiber Biosensors.- Photonic Crystal Fiber Pressure Sensors.- Development of Photonic Crystal Fiber Based Gas/Chemical Sensors.- Part 4. Silicon-on-Insulator Sensors.- Silicon Nanowires for DNA Sensing.- Compact Photonic SOI Sensors.- Silicon Ring-Resonator Based Biochips.- SOI Waveguide Based Biochemical Sensors.
Part 1. Fundamentals.- Introduction to Optical Waveguides.- Fundamentals of Photonic Crystals.- Basic Principles of Surface Plasmon Resonance.- Introduction to Silicon Photonics.- Basic Principles of Biosensing.- Part 2. Computational Modeling Techniques.- Finite Element Method for Sensing Applications.- FDTD in Cartesian and Spherical Grids.- Part 3. Photonic Crystal Fiber Sensors.- Temperature Sensors Based on Plasmonic Photonic Crystal Fiber.- Microstructured Optical Fiber Based Plasmonic Sensors.- Multifunctional Plasmonic Photonic Crystal Fiber Biosensors.- Photonic Crystal Fiber Pressure Sensors.- Development of Photonic Crystal Fiber Based Gas/Chemical Sensors.- Part 4. Silicon-on-Insulator Sensors.- Silicon Nanowires for DNA Sensing.- Compact Photonic SOI Sensors.- Silicon Ring-Resonator Based Biochips.- SOI Waveguide Based Biochemical Sensors.
Part 1. Fundamentals.- Introduction to Optical Waveguides.- Fundamentals of Photonic Crystals.- Basic Principles of Surface Plasmon Resonance.- Introduction to Silicon Photonics.- Basic Principles of Biosensing.- Part 2. Computational Modeling Techniques.- Finite Element Method for Sensing Applications.- FDTD in Cartesian and Spherical Grids.- Part 3. Photonic Crystal Fiber Sensors.- Temperature Sensors Based on Plasmonic Photonic Crystal Fiber.- Microstructured Optical Fiber Based Plasmonic Sensors.- Multifunctional Plasmonic Photonic Crystal Fiber Biosensors.- Photonic Crystal Fiber Pressure Sensors.- Development of Photonic Crystal Fiber Based Gas/Chemical Sensors.- Part 4. Silicon-on-Insulator Sensors.- Silicon Nanowires for DNA Sensing.- Compact Photonic SOI Sensors.- Silicon Ring-Resonator Based Biochips.- SOI Waveguide Based Biochemical Sensors.
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