Silicon Photonics, 2 Volume Set

Nyhet

Fundamentals and Applications

Inbunden, Engelska, 2026

Av M. Jamal Deen, Prasant K. Basu, M. Jamal (McMaster University) Deen, M Jamal Deen, Prasant K Basu, Nikhil R Das, Safa O Kasap, Arthur Willoughby, Peter Capper

3 039 kr

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Complete coverage of the field of silicon-based photonic devices, including a chapter on nonlinear silicon photonics Silicon Photonics discusses the physics, technology, and device operation of photonic devices using silicon, Group IV semiconductors, and their alloys. The book delivers an optimal combination of background information about photonic structures with description of up-to-date results and trends in silicon photonics. This Second Edition includes a new chapter on nonlinear silicon photonics as well as numerous updates to existing content. Readers will find information on the role of silicon in photonics and its advantages and disadvantages as well as the properties of these alloys. Subsequent chapters in Silicon Photonics explore topics including: Quantum structures, covering quantum wells, wires, and dots, superlattices, Si-based quantum structures, and effects of electric fieldsOptical processes, covering absorption processes in semiconductors, intervalence band absorption, free-carrier absorption, and recombination and luminescenceSi light modulators, covering electrorefraction, thermo-optic effects, modulators, and optical and electrical structuresRaman lasers, covering Raman scattering, the Raman effect in silicon, the Raman gain coefficient, and continuous-wave Raman lasersPrinciples of planar waveguide devices, covering directional couplers and distributed Bragg reflectorsSilicon Photonics is an excellent resource on the subject for materials scientists, applied physicists, electrical engineers, and postgraduate students working in Si photonics.

Produktinformation

Utgivningsdatum2026-03-12
Mått170 x 244 x undefined mm
FormatInbunden
SpråkEngelska
SerieWiley Series in Materials for Electronic & Optoelectronic Applications
Antal sidor752
Upplaga2
FörlagJohn Wiley & Sons Inc
ISBN9781119601272

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M. Jamal Deen, PhD, is Director of the Micro- & Nano Systems Lab and Research Chair in Information Technology at McMaster University, Canada. Prasanta Kumar Basu, PhD, worked in the Institute of Radio Physics and Electronics at the University of Calcutta, India, as a Lecturer, then as a Reader and a Professor, until his retirement. Nikhil R. Das, PhD, Professor at the University of Calcutta, India, specializes in semiconductor nanoelectronics and photonics.

1 Introduction to Silicon Photonics1.1 Introduction1.2 VLSI: Past, Present, and Future Roadmap1.3 The Interconnect Problem in VLSI1.4 The Long-Haul Optical Communication Link1.5 Data Network1.6 Conclusions1.7 Scope of the Book 2 Basic Properties of Silicon2.1 Introduction2.2 Band Structure2.3 Density-of-States Function2.4 Impurities2.5 Alloys of Silicon and Other Group IV Elements2.6 Heterojunctions and Band Lineup2.7 Si-Based Heterostructures2.8 Direct GAP: Ge/SiGeSn Heterojunctions 3 Quantum Structures3.1 Introduction3.2 Quantum Wells3.3 Quantum Wires and Dots3.4 Superlattices3.5 Si-Based Quantum Structures3.6 Effect of Electric Field 4 Optical Processes4.1 Introduction4.2 Optical Constants4.3 Basic Concepts4.4 Absorption Processes in Semiconductors4.5 Fundamental Absorption in Direct GAP4.6 Fundamental Absorption in Indirect GAP4.7 Absorption and Gain4.8 Intervalence Band Absorption4.9 Free-carrier Absorption4.10 Recombination and Luminescence4.11 Nonradiative Recombination4.12 Excitonic and Impurity Absorption 5 Optical Processes in Quantum Structures5.1 Introduction5.2 Optical Processes in QWs5.3 Intersubband Transitions5.4 Excitonic Processes in QWs5.5 Effect of Electric Fields5.6 Optical Processes in QWRs5.7 Optical Processes in QDS 6 Light Emitters in Si6.1 Introduction6.2 Basic Theory of Light Emission6.3 Early Efforts: Zone Folding6.4 Band Structure Engineering Using Alloys6.5 Quantum Confinement6.6 Impurities in Silicon6.7 Stimulated Emission: Prospect6.8 Intersubband Emission6.9 Tensile-Strained Ge Layers 7 Si Light Modulators7.1 Introduction7.2 Physical Effects7.3 Electrorefraction in Silicon7.4 Thermo-Optic Effects in Si7.5 Modulators: Some Useful Characteristics7.6 Modulation Bandwidth under Injection7.7 Optical Structures7.8 Electrical Structures7.9 High-Bandwidth Modulators7.10 Performance of EO Modulators 8 Silicon Photodetectors8.1 Introduction8.2 Optical Detection8.3 Important Characteristics of Photodetectors8.4 Examples of Types of Photodetectors8.5 Examples of Photodiodes in Standard Silicon Technology8.6 Phototransistors in Standard Silicon Technology8.7 CMOS and BiCMOS8.8 Silicon-on-Insulator (SOI)8.9 Photodetectors Using Heteroepitaxy 9 Raman Lasers9.1 Introduction9.2 Raman Scattering: Basic Concepts9.3 Simplified Theory of Raman Scattering9.4 Raman Effect in Silicon9.5 Raman Gain Coefficient9.6 Continuous-Wave Raman Laser9.7 Further Developments 10 Guided Lightwaves: Introduction10.1 Introduction10.2 Ray Optic Theory for Light Guidance10.3 Reflection Coefficients10.4 Modes of a Planar Waveguide10.5 Wave Theory of Light Guides10.6 3D Optical Waveguides10.7 Loss Mechanisms in Waveguides10.8 Coupling to Optical Devices10.9 Tapers 11 Principle of Planar Waveguide Devices11.1 Introduction11.2 Model for Mode Coupling11.3 Directional Coupler11.4 Distributed Bragg Reflector11.5 Some Useful Planar Devices 12 Waveguides for Dense Wavelength-Division Multiplexing (DWDM) Systems12.1 Introduction12.2 Structure and Operation of AWGs12.3 AWG Characteristics12.4 Methods for Improving Performance12.5 Applications of AWGs12.6 PHASAR-Based Devices on Different Materials12.7 Echelle Grating 13 Nonlinear Silicon Photonics13.1 Introduction13.2 Nonlinear Optical Effects in Silicon13.3 Third-Order Nonlinearities13.4 Two-Photon Absorption13.5 Free-Carrier Effects13.6 Nonlinear Waveguides13.7 Nonlinear Resonators13.8 Applications in Signal Processing13.9 Future Directions 14 Fabrication Techniques and Materials Systems14.1 Introduction14.2 Planar Processing14.3 Substrate Growth and Preparation14.4 Material Modification14.5 Etching14.6 Lithography14.7 Fabrication of Waveguides14.8 Grating Formation Process14.9 Materials Systems for Waveguide Formation