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Quantum dot lasers on silicon : nonlinear properties, dynamics, and applications / / Bozhang Dong
| Quantum dot lasers on silicon : nonlinear properties, dynamics, and applications / / Bozhang Dong |
| Autore | Dong Bozhang |
| Edizione | [1st ed. 2023.] |
| Pubbl/distr/stampa | Cham, Switzerland : , : Springer International Publishing, , [2023] |
| Descrizione fisica | 1 online resource (206 pages) |
| Disciplina | 621.38152 |
| Collana | Springer Theses, Recognizing Outstanding Ph.D. Research |
| Soggetto topico |
Silicon - Optical properties
Quantum dots |
| ISBN |
9783031178276
9783031178269 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Physics and Properties of Quantum-dot Lasers -- Dynamics of Quantum-Dot Lasers Subject To External Optical Feedback -- Quantum-Dot Distributed Feedback Laser With Large Optical Mismatch -- Design And Optimization Of Quantum-Dot Optical Frequency Comb On Silicon -- Nonlinear Frequency Conversion In Epitaxial Quantum-Dot Laser On Silicon -- Conclusions And Perspectives. |
| Record Nr. | UNINA-9910647770003321 |
Dong Bozhang
|
||
| Cham, Switzerland : , : Springer International Publishing, , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Silicon photonics [[electronic resource] ] : fundamentals and devices / / M.J. Deen, P.K. Basu
| Silicon photonics [[electronic resource] ] : fundamentals and devices / / M.J. Deen, P.K. Basu |
| Autore | Deen M. Jamal |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | Chichester, West Sussex, UK ; ; Hoboken, N.J., : Wiley, 2012 |
| Descrizione fisica | 1 online resource (455 p.) |
| Disciplina | 621.38152 |
| Altri autori (Persone) | BasuP. K (Prasanta Kumar) |
| Collana | Wiley Series in Materials for Electronic & Optoelectronic Applications |
| Soggetto topico |
Silicon - Optical properties
Optoelectronic devices Photonics |
| ISBN |
1-119-94090-7
1-280-78468-7 9786613695079 1-119-94515-1 1-119-94516-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Silicon Photonics: Fundamentals and Devices; Contents; Series Preface; Preface; 1 Introduction to Silicon Photonics; 1.1 Introduction; 1.2 VLSI: Past, Present, and Future Roadmap; 1.3 The Interconnect Problem in VLSI; 1.4 The Long-Haul Optical Communication Link; 1.4.1 Basic Link and Components; 1.4.2 Materials and Integration; 1.5 Data Network; 1.6 Conclusions; 1.7 Scope of the Book; References; 2 Basic Properties of Silicon; 2.1 Introduction; 2.2 Band Structure; 2.2.1 E-k Diagram: General Considerations; 2.2.2 Band Properties near Extremas; 2.2.3 Refined Theory for Band Structures
2.2.4 Temperature- and Pressure-Dependent Band Gap 2.2.5 Band Structure in Ge; 2.3 Density-of-States Function; 2.4 Impurities; 2.4.1 Donors and Acceptors; 2.4.2 Isoelectronic Impurities; 2.5 Alloys of Silicon and Other Group IV Elements; 2.5.1 Different Alloy Systems; 2.5.2 Lattice Constants; 2.5.3 Band Structures of Unstrained Alloys; 2.6 Heterojunctions and Band Lineup; 2.7 Si-Based Heterostructures; 2.7.1 Lattice-Mismatched Heteroepitaxy; 2.7.2 Pseudomorphic Growth and Critical Thickness; 2.7.3 Elasticity Theory: Stress and Strain; 2.7.4 Expressions for Critical Thickness 2.7.5 Strain Symmetric Structures and Virtual Substrates 2.7.6 Band Offsets and Band Lineup; 2.7.7 Electronic Properties of SiGe/Si Heterostructures; 2.8 Direct Gap: Ge/SiGeSn Heterojunctions; 2.8.1 Structures; 2.8.2 Band Edges and Band Lineup; Problems; References; Suggested Readings; 3 Quantum Structures; 3.1 Introduction; 3.2 Quantum Wells; 3.2.1 Condition for Quantum Confinement; 3.2.2 A Representative Structure; 3.2.3 Simplified Energy Levels; 3.2.4 Density-of-States in Two Dimensions; 3.2.5 Finite Quantum Well; 3.2.6 Refined Methods; 3.2.7 Different Band Alignments 3.3 Quantum Wires and Dots 3.3.1 Subbands and DOS in Quantum Wires; 3.3.2 Quantum Dots; 3.4 Superlattices; 3.5 Si-Based Quantum Structures; 3.5.1 Electron Subband Structure; 3.5.2 Hole Subbands; 3.5.3 Quantum Wells and Barriers; 3.6 Effect of Electric Field; Problems; References; Suggested Readings; 4 Optical Processes; 4.1 Introduction; 4.2 Optical Constants; 4.3 Basic Concepts; 4.3.1 Absorption and Emission; 4.3.2 Absorption and Emission Rates; 4.4 Absorption Processes in Semiconductors; 4.5 Fundamental Absorption in Direct Gap; 4.5.1 Conservation Laws 4.5.2 Calculation of Absorption Coefficient 4.6 Fundamental Absorption in Indirect Gap; 4.6.1 Theory of Absorption; 4.6.2 Absorption Spectra in Si; 4.6.3 Absorption Spectra in Ge; 4.7 Absorption and Gain; 4.8 Intervalence Band Absorption; 4.9 Free-carrier Absorption; 4.10 Recombination and Luminescence; 4.10.1 Luminescence Lifetime; 4.10.2 Carrier Lifetime: Dependence on Carrier Density; 4.10.3 Absorption and Recombination; 4.10.4 Microscopic Theory of Recombination; 4.11 Nonradiative Recombination; 4.11.1 Recombination via Traps; 4.11.2 Auger Recombination; 4.11.3 Surface Recombination 4.11.4 Recombination of Complexes |
| Record Nr. | UNINA-9910130959703321 |
|
Deen M. Jamal
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| Chichester, West Sussex, UK ; ; Hoboken, N.J., : Wiley, 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Silicon photonics : fundamentals and devices / / M.J. Deen, P.K. Basu
| Silicon photonics : fundamentals and devices / / M.J. Deen, P.K. Basu |
| Autore | Deen M. Jamal |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | Chichester, West Sussex, UK ; ; Hoboken, N.J., : Wiley, 2012 |
| Descrizione fisica | 1 online resource (455 p.) |
| Disciplina | 621.38152 |
| Altri autori (Persone) | BasuP. K (Prasanta Kumar) |
| Collana | Wiley Series in Materials for Electronic & Optoelectronic Applications |
| Soggetto topico |
Silicon - Optical properties
Optoelectronic devices Photonics |
| ISBN |
1-119-94090-7
1-280-78468-7 9786613695079 1-119-94515-1 1-119-94516-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Silicon Photonics: Fundamentals and Devices; Contents; Series Preface; Preface; 1 Introduction to Silicon Photonics; 1.1 Introduction; 1.2 VLSI: Past, Present, and Future Roadmap; 1.3 The Interconnect Problem in VLSI; 1.4 The Long-Haul Optical Communication Link; 1.4.1 Basic Link and Components; 1.4.2 Materials and Integration; 1.5 Data Network; 1.6 Conclusions; 1.7 Scope of the Book; References; 2 Basic Properties of Silicon; 2.1 Introduction; 2.2 Band Structure; 2.2.1 E-k Diagram: General Considerations; 2.2.2 Band Properties near Extremas; 2.2.3 Refined Theory for Band Structures
2.2.4 Temperature- and Pressure-Dependent Band Gap 2.2.5 Band Structure in Ge; 2.3 Density-of-States Function; 2.4 Impurities; 2.4.1 Donors and Acceptors; 2.4.2 Isoelectronic Impurities; 2.5 Alloys of Silicon and Other Group IV Elements; 2.5.1 Different Alloy Systems; 2.5.2 Lattice Constants; 2.5.3 Band Structures of Unstrained Alloys; 2.6 Heterojunctions and Band Lineup; 2.7 Si-Based Heterostructures; 2.7.1 Lattice-Mismatched Heteroepitaxy; 2.7.2 Pseudomorphic Growth and Critical Thickness; 2.7.3 Elasticity Theory: Stress and Strain; 2.7.4 Expressions for Critical Thickness 2.7.5 Strain Symmetric Structures and Virtual Substrates 2.7.6 Band Offsets and Band Lineup; 2.7.7 Electronic Properties of SiGe/Si Heterostructures; 2.8 Direct Gap: Ge/SiGeSn Heterojunctions; 2.8.1 Structures; 2.8.2 Band Edges and Band Lineup; Problems; References; Suggested Readings; 3 Quantum Structures; 3.1 Introduction; 3.2 Quantum Wells; 3.2.1 Condition for Quantum Confinement; 3.2.2 A Representative Structure; 3.2.3 Simplified Energy Levels; 3.2.4 Density-of-States in Two Dimensions; 3.2.5 Finite Quantum Well; 3.2.6 Refined Methods; 3.2.7 Different Band Alignments 3.3 Quantum Wires and Dots 3.3.1 Subbands and DOS in Quantum Wires; 3.3.2 Quantum Dots; 3.4 Superlattices; 3.5 Si-Based Quantum Structures; 3.5.1 Electron Subband Structure; 3.5.2 Hole Subbands; 3.5.3 Quantum Wells and Barriers; 3.6 Effect of Electric Field; Problems; References; Suggested Readings; 4 Optical Processes; 4.1 Introduction; 4.2 Optical Constants; 4.3 Basic Concepts; 4.3.1 Absorption and Emission; 4.3.2 Absorption and Emission Rates; 4.4 Absorption Processes in Semiconductors; 4.5 Fundamental Absorption in Direct Gap; 4.5.1 Conservation Laws 4.5.2 Calculation of Absorption Coefficient 4.6 Fundamental Absorption in Indirect Gap; 4.6.1 Theory of Absorption; 4.6.2 Absorption Spectra in Si; 4.6.3 Absorption Spectra in Ge; 4.7 Absorption and Gain; 4.8 Intervalence Band Absorption; 4.9 Free-carrier Absorption; 4.10 Recombination and Luminescence; 4.10.1 Luminescence Lifetime; 4.10.2 Carrier Lifetime: Dependence on Carrier Density; 4.10.3 Absorption and Recombination; 4.10.4 Microscopic Theory of Recombination; 4.11 Nonradiative Recombination; 4.11.1 Recombination via Traps; 4.11.2 Auger Recombination; 4.11.3 Surface Recombination 4.11.4 Recombination of Complexes |
| Record Nr. | UNINA-9910826220503321 |
|
Deen M. Jamal
|
||
| Chichester, West Sussex, UK ; ; Hoboken, N.J., : Wiley, 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Silicon photonics : fueling the next information revolution / / Daryl Inniss, Roy Rubenstein
| Silicon photonics : fueling the next information revolution / / Daryl Inniss, Roy Rubenstein |
| Autore | Inniss Daryl |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | Amsterdam : , : Morgan Kaufman, , [2017] |
| Descrizione fisica | 1 online resource (228 pages) : color illustrations |
| Soggetto topico |
Optoelectronic devices
Photonics Silicon - Optical properties |
| ISBN | 0-12-802992-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910583314603321 |
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Inniss Daryl
|
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| Amsterdam : , : Morgan Kaufman, , [2017] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Silicon photonics [[electronic resource] ] : the state of the art / / Graham T. Reed
| Silicon photonics [[electronic resource] ] : the state of the art / / Graham T. Reed |
| Autore | Reed Graham T |
| Pubbl/distr/stampa | Chichester, : Wiley, c2008 |
| Descrizione fisica | 1 online resource (354 p.) |
| Disciplina | 621.38152 |
| Soggetto topico |
Optoelectronic devices
Silicon - Optical properties Photonics |
| ISBN |
1-282-35010-2
9786612350108 0-470-99453-3 0-470-99452-5 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
SILICON PHOTONICS; Contents; Foreword; About the Editor; List of Contributors; Acknowledgements; 1 Introduction: The Opto-Electronic Integrated Circuit; 1.1 A Few Words About History; 1.2 The Possibilities for OEICs; 1.3 The Present Status of OEICs; 1.4 Silicon-based GeSn and SiGeSn Technology; 1.5 OEICs for the Near, Mid and Far Infrared; 1.6 Opto-Eletronic Integration with Ultimate CMOS and Post CMOS; 1.7 Nanophotonics Integrated with Nanoelectronics; 1.8 Conclusion; References; 2 Silicon Photonic Waveguides; 2.1 Introduction; 2.2 Planar Waveguides; 2.3 Rib Waveguides; 2.4 Strip Waveguides
2.5 Coupling to Small Silicon Waveguides2.6 Novel Silicon Waveguide Structures; 2.6.1 Free-standing Waveguides; 2.6.2 Hollow Waveguides; 2.7 Summary and Conclusions; References; 3 Silicon-based Photonic Crystal Structures: From Design to Realization; 3.1 Theory of Photonic Crystals and Photonic Bandgap Structures; 3.1.1 Analogy Between Photonic and Semiconductor Crystals; 3.1.2 Analyzing Photonic Bandgap Structures; 3.1.3 Doping of Photonic Crystals; 3.1.4 Waveguides and Nano-cavities in Photonic Crystals; 3.2 Fabrication and Characterization of Photonic Crystals 3.2.1 Planar/2D Photonic Crystal Fabrication3.2.2 3D Photonic Crystal Fabrication; 3.3 Overview of Photonic Bandgap Applications in Silicon Photonic Integrated Circuits; 3.4 Silicon Photonic Crystal Dispersion-based Applications; 3.4.1 Non-channel Waveguide; 3.4.2 A Unidirectional Emitter; 3.4.3 Sub-surface Silicon Optical Bus Based on Three-dimensional Photonic Crystals; 3.4.4 Dispersion-based Variable Beam Splitter; 3.4.5 Photonic Crystal Analog-to-digital Converter; 3.5 Conclusions; References; 4 Optical Modulators in Silicon Photonic Circuits; 4.1 Introduction 4.2 Mechanisms for Optical Modulation in Silicon4.2.1 Absorption; 4.2.2 Optical Modulation Mechanisms in Silicon; 4.3 A Brief History of Silicon Modulator Designs; 4.4 Conclusion; References; 5 Silicon Lasers; 5.1 Introduction; 5.2 Why Bulk Silicon Cannot Amplify Light; 5.2.1 Physics of Optical Gain in Bulk Silicon; 5.3 Approach 1: Quantum Confinement; 5.4 Approach 2: Erbium Doping and Other Approaches; 5.4.1 Hybrid Integration of III-V and Silicon; 5.5 Approach 3: Raman Effect; 5.5.1 Physics of Raman Scattering in Silicon; 5.5.2 Limitation of Active Carrier Removal Using a p-n Junction 5.5.3 Electrical Power Dissipation Caused by Active Carrier Sweep-out5.5.4 Raman Wavelength Conversion; 5.5.5 Comparison of Raman with Other Optical Nonlinearities in Silicon; 5.6 Experimental Realization of Raman-based Silicon Photonic Devices; 5.7 GeSi Raman Devices; 5.8 Mid-wave IR (MWIR) Silicon Photonics; 5.8.1 Prospects of Mid-infrared Silicon Raman Devices; 5.9 Energy Harvesting in Silicon Raman and Other Nonlinear Optical Devices; 5.10 Summary; References; 6 Optical Detection Technologies for Silicon Photonics; 6.1 Introduction; 6.2 Photodetector Theory 6.2.1 Band-edge Photo-excitation of Charge Carriers |
| Record Nr. | UNINA-9910144431703321 |
|
Reed Graham T
|
||
| Chichester, : Wiley, c2008 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Silicon photonics [[electronic resource] ] : the state of the art / / Graham T. Reed
| Silicon photonics [[electronic resource] ] : the state of the art / / Graham T. Reed |
| Autore | Reed Graham T |
| Pubbl/distr/stampa | Chichester, : Wiley, c2008 |
| Descrizione fisica | 1 online resource (354 p.) |
| Disciplina | 621.38152 |
| Soggetto topico |
Optoelectronic devices
Silicon - Optical properties Photonics |
| ISBN |
1-282-35010-2
9786612350108 0-470-99453-3 0-470-99452-5 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
SILICON PHOTONICS; Contents; Foreword; About the Editor; List of Contributors; Acknowledgements; 1 Introduction: The Opto-Electronic Integrated Circuit; 1.1 A Few Words About History; 1.2 The Possibilities for OEICs; 1.3 The Present Status of OEICs; 1.4 Silicon-based GeSn and SiGeSn Technology; 1.5 OEICs for the Near, Mid and Far Infrared; 1.6 Opto-Eletronic Integration with Ultimate CMOS and Post CMOS; 1.7 Nanophotonics Integrated with Nanoelectronics; 1.8 Conclusion; References; 2 Silicon Photonic Waveguides; 2.1 Introduction; 2.2 Planar Waveguides; 2.3 Rib Waveguides; 2.4 Strip Waveguides
2.5 Coupling to Small Silicon Waveguides2.6 Novel Silicon Waveguide Structures; 2.6.1 Free-standing Waveguides; 2.6.2 Hollow Waveguides; 2.7 Summary and Conclusions; References; 3 Silicon-based Photonic Crystal Structures: From Design to Realization; 3.1 Theory of Photonic Crystals and Photonic Bandgap Structures; 3.1.1 Analogy Between Photonic and Semiconductor Crystals; 3.1.2 Analyzing Photonic Bandgap Structures; 3.1.3 Doping of Photonic Crystals; 3.1.4 Waveguides and Nano-cavities in Photonic Crystals; 3.2 Fabrication and Characterization of Photonic Crystals 3.2.1 Planar/2D Photonic Crystal Fabrication3.2.2 3D Photonic Crystal Fabrication; 3.3 Overview of Photonic Bandgap Applications in Silicon Photonic Integrated Circuits; 3.4 Silicon Photonic Crystal Dispersion-based Applications; 3.4.1 Non-channel Waveguide; 3.4.2 A Unidirectional Emitter; 3.4.3 Sub-surface Silicon Optical Bus Based on Three-dimensional Photonic Crystals; 3.4.4 Dispersion-based Variable Beam Splitter; 3.4.5 Photonic Crystal Analog-to-digital Converter; 3.5 Conclusions; References; 4 Optical Modulators in Silicon Photonic Circuits; 4.1 Introduction 4.2 Mechanisms for Optical Modulation in Silicon4.2.1 Absorption; 4.2.2 Optical Modulation Mechanisms in Silicon; 4.3 A Brief History of Silicon Modulator Designs; 4.4 Conclusion; References; 5 Silicon Lasers; 5.1 Introduction; 5.2 Why Bulk Silicon Cannot Amplify Light; 5.2.1 Physics of Optical Gain in Bulk Silicon; 5.3 Approach 1: Quantum Confinement; 5.4 Approach 2: Erbium Doping and Other Approaches; 5.4.1 Hybrid Integration of III-V and Silicon; 5.5 Approach 3: Raman Effect; 5.5.1 Physics of Raman Scattering in Silicon; 5.5.2 Limitation of Active Carrier Removal Using a p-n Junction 5.5.3 Electrical Power Dissipation Caused by Active Carrier Sweep-out5.5.4 Raman Wavelength Conversion; 5.5.5 Comparison of Raman with Other Optical Nonlinearities in Silicon; 5.6 Experimental Realization of Raman-based Silicon Photonic Devices; 5.7 GeSi Raman Devices; 5.8 Mid-wave IR (MWIR) Silicon Photonics; 5.8.1 Prospects of Mid-infrared Silicon Raman Devices; 5.9 Energy Harvesting in Silicon Raman and Other Nonlinear Optical Devices; 5.10 Summary; References; 6 Optical Detection Technologies for Silicon Photonics; 6.1 Introduction; 6.2 Photodetector Theory 6.2.1 Band-edge Photo-excitation of Charge Carriers |
| Record Nr. | UNINA-9910830974503321 |
|
Reed Graham T
|
||
| Chichester, : Wiley, c2008 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Silicon photonics [[electronic resource] ] : the state of the art / / Graham T. Reed
| Silicon photonics [[electronic resource] ] : the state of the art / / Graham T. Reed |
| Autore | Reed Graham T |
| Pubbl/distr/stampa | Chichester, : Wiley, c2008 |
| Descrizione fisica | 1 online resource (354 p.) |
| Disciplina | 621.38152 |
| Soggetto topico |
Optoelectronic devices
Silicon - Optical properties Photonics |
| ISBN |
1-282-35010-2
9786612350108 0-470-99453-3 0-470-99452-5 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
SILICON PHOTONICS; Contents; Foreword; About the Editor; List of Contributors; Acknowledgements; 1 Introduction: The Opto-Electronic Integrated Circuit; 1.1 A Few Words About History; 1.2 The Possibilities for OEICs; 1.3 The Present Status of OEICs; 1.4 Silicon-based GeSn and SiGeSn Technology; 1.5 OEICs for the Near, Mid and Far Infrared; 1.6 Opto-Eletronic Integration with Ultimate CMOS and Post CMOS; 1.7 Nanophotonics Integrated with Nanoelectronics; 1.8 Conclusion; References; 2 Silicon Photonic Waveguides; 2.1 Introduction; 2.2 Planar Waveguides; 2.3 Rib Waveguides; 2.4 Strip Waveguides
2.5 Coupling to Small Silicon Waveguides2.6 Novel Silicon Waveguide Structures; 2.6.1 Free-standing Waveguides; 2.6.2 Hollow Waveguides; 2.7 Summary and Conclusions; References; 3 Silicon-based Photonic Crystal Structures: From Design to Realization; 3.1 Theory of Photonic Crystals and Photonic Bandgap Structures; 3.1.1 Analogy Between Photonic and Semiconductor Crystals; 3.1.2 Analyzing Photonic Bandgap Structures; 3.1.3 Doping of Photonic Crystals; 3.1.4 Waveguides and Nano-cavities in Photonic Crystals; 3.2 Fabrication and Characterization of Photonic Crystals 3.2.1 Planar/2D Photonic Crystal Fabrication3.2.2 3D Photonic Crystal Fabrication; 3.3 Overview of Photonic Bandgap Applications in Silicon Photonic Integrated Circuits; 3.4 Silicon Photonic Crystal Dispersion-based Applications; 3.4.1 Non-channel Waveguide; 3.4.2 A Unidirectional Emitter; 3.4.3 Sub-surface Silicon Optical Bus Based on Three-dimensional Photonic Crystals; 3.4.4 Dispersion-based Variable Beam Splitter; 3.4.5 Photonic Crystal Analog-to-digital Converter; 3.5 Conclusions; References; 4 Optical Modulators in Silicon Photonic Circuits; 4.1 Introduction 4.2 Mechanisms for Optical Modulation in Silicon4.2.1 Absorption; 4.2.2 Optical Modulation Mechanisms in Silicon; 4.3 A Brief History of Silicon Modulator Designs; 4.4 Conclusion; References; 5 Silicon Lasers; 5.1 Introduction; 5.2 Why Bulk Silicon Cannot Amplify Light; 5.2.1 Physics of Optical Gain in Bulk Silicon; 5.3 Approach 1: Quantum Confinement; 5.4 Approach 2: Erbium Doping and Other Approaches; 5.4.1 Hybrid Integration of III-V and Silicon; 5.5 Approach 3: Raman Effect; 5.5.1 Physics of Raman Scattering in Silicon; 5.5.2 Limitation of Active Carrier Removal Using a p-n Junction 5.5.3 Electrical Power Dissipation Caused by Active Carrier Sweep-out5.5.4 Raman Wavelength Conversion; 5.5.5 Comparison of Raman with Other Optical Nonlinearities in Silicon; 5.6 Experimental Realization of Raman-based Silicon Photonic Devices; 5.7 GeSi Raman Devices; 5.8 Mid-wave IR (MWIR) Silicon Photonics; 5.8.1 Prospects of Mid-infrared Silicon Raman Devices; 5.9 Energy Harvesting in Silicon Raman and Other Nonlinear Optical Devices; 5.10 Summary; References; 6 Optical Detection Technologies for Silicon Photonics; 6.1 Introduction; 6.2 Photodetector Theory 6.2.1 Band-edge Photo-excitation of Charge Carriers |
| Record Nr. | UNINA-9910877639103321 |
|
Reed Graham T
|
||
| Chichester, : Wiley, c2008 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Silicon photonics [[electronic resource] ] : an introduction / / Graham T. Reed, Andrew P. Knights
| Silicon photonics [[electronic resource] ] : an introduction / / Graham T. Reed, Andrew P. Knights |
| Autore | Reed Graham T |
| Pubbl/distr/stampa | Chichester ; ; Hoboken, NJ, : John Wiley, c2004 |
| Descrizione fisica | 1 online resource (277 p.) |
| Disciplina | 621.38152 |
| Altri autori (Persone) | KnightsAndrew P |
| Soggetto topico |
Optoelectronic devices
Silicon - Optical properties Photonics |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-280-27255-4
9786610272556 0-470-34594-2 0-470-87035-4 0-470-01418-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Silicon Photonics; Contents; About the Authors; Foreword; Acknowledgements; 1 Fundamentals; 1.1 What is Phase?; 1.2 What is Polarisation?; 1.3 What is Interference?; 2 The Basics of Guided Waves; 2.1 The Ray Optics Approach to Describing Planar Waveguides; 2.2 Reflection Coefficients; 2.3 Phase of a Propagating Wave and its Wavevector; 2.4 Modes of a Planar Waveguide; 2.4.1 The Symmetrical Planar Waveguide; 2.4.2 The Asymmetrical Planar Waveguide; 2.4.3 Solving the Eigenvalue Equations for Symmetrical and Asymmetrical Waveguides; 2.4.4 Monomode Conditions; 2.4.5 Effective Index of a Mode
2.5 A Taste of Electromagnetic Theory2.6 Simplifying and Solving the Wave Equation; 2.7 Another Look at Propagation Constants; 2.8 Mode Profiles; 2.9 Confinement Factor; 2.10 The Goos-Hänchen Shift; 3 Characteristics of Optical Fibres for Communications; 3.1 The Structure of Optical Fibres; 3.2 Modes of an Optical Fibre; 3.2.1 Modes of a Step-index Fibre; 3.2.2 Modes of a Graded-index Fibre; 3.3 Numerical Aperture and Acceptance Angle; 3.4 Dispersion in Optical Fibres; 3.4.1 Intermodal Dispersion; 3.4.2 Intramodal Dispersion 3.5 Single-mode Fibres: Mode Profile, Mode-field Diameter, and Spot Size3.6 Normalised Frequency, Normalised Propagation Constant, and Cutoff Wavelength; References; 4 Silicon-on-Insulator (SOI) Photonics; 4.1 Introduction; 4.2 Silicon-on-Insulator Waveguides; 4.2.1 Modes of Two-dimensional Waveguides; 4.3 The Effective Index Method of Analysis; 4.4 Large Single-mode Rib Waveguides; 4.5 Refractive Index and Loss Coefficient in Optical Waveguides; 4.6 Contributions to Loss in an Optical Waveguide; 4.6.1 Scattering; 4.6.2 Absorption; 4.6.3 Radiation; 4.7 Coupling to the Optical Circuit 4.7.1 Grating Couplers4.7.2 Butt Coupling and End-fire Coupling; 4.7.3 Robust Coupling to Waveguides for Commercial Applications; 4.7.4 Measurement of Propagation Loss in Integrated Optical Waveguides; 4.8 Optical Modulation Mechanisms in Silicon; 4.8.1 Electric Field Effects; 4.8.2 Carrier Injection or Depletion; 4.8.3 The Thermo-optic Effect; 4.9 Other Advantages and Disadvantages of Silicon Photonics; References; 5 Fabrication of Silicon Waveguide Devices; 5.1 Silicon-on-Insulator (SOI); 5.1.1 Separation by IMplanted OXygen (SIMOX); 5.1.2 Bond and Etch-back SOI (BESOI) 5.1.3 Wafer Splitting (SmartCut(®) Process to Produce Unibond(®) Wafers)5.1.4 Silicon Epitaxial Growth; 5.1.5 Deciding on the SOI; 5.2 Fabrication of Surface Etched Features; 5.2.1 Photolithography; 5.2.2 Silicon Etching; 5.2.3 Critical Dimension Control; 5.3 Oxidation; 5.4 Formation of Submicron Silicon Waveguides; 5.4.1 Silicon Dioxide Thickness; 5.4.2 Surface and Interface Roughness; 5.4.3 Sidewall Roughness; 5.5 Silicon Doping; 5.5.1 Ion Implantation; 5.5.2 The Implantation System; 5.5.3 Implantation Parameters; 5.5.4 Dopant Activation and Drive-in; 5.6 Metallisation; 5.6.1 Via Formation 5.6.2 Metal Deposition |
| Record Nr. | UNINA-9910145903903321 |
|
Reed Graham T
|
||
| Chichester ; ; Hoboken, NJ, : John Wiley, c2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Silicon photonics [[electronic resource] ] : an introduction / / Graham T. Reed, Andrew P. Knights
| Silicon photonics [[electronic resource] ] : an introduction / / Graham T. Reed, Andrew P. Knights |
| Autore | Reed Graham T |
| Pubbl/distr/stampa | Chichester ; ; Hoboken, NJ, : John Wiley, c2004 |
| Descrizione fisica | 1 online resource (277 p.) |
| Disciplina | 621.38152 |
| Altri autori (Persone) | KnightsAndrew P |
| Soggetto topico |
Optoelectronic devices
Silicon - Optical properties Photonics |
| ISBN |
1-280-27255-4
9786610272556 0-470-34594-2 0-470-87035-4 0-470-01418-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Silicon Photonics; Contents; About the Authors; Foreword; Acknowledgements; 1 Fundamentals; 1.1 What is Phase?; 1.2 What is Polarisation?; 1.3 What is Interference?; 2 The Basics of Guided Waves; 2.1 The Ray Optics Approach to Describing Planar Waveguides; 2.2 Reflection Coefficients; 2.3 Phase of a Propagating Wave and its Wavevector; 2.4 Modes of a Planar Waveguide; 2.4.1 The Symmetrical Planar Waveguide; 2.4.2 The Asymmetrical Planar Waveguide; 2.4.3 Solving the Eigenvalue Equations for Symmetrical and Asymmetrical Waveguides; 2.4.4 Monomode Conditions; 2.4.5 Effective Index of a Mode
2.5 A Taste of Electromagnetic Theory2.6 Simplifying and Solving the Wave Equation; 2.7 Another Look at Propagation Constants; 2.8 Mode Profiles; 2.9 Confinement Factor; 2.10 The Goos-Hänchen Shift; 3 Characteristics of Optical Fibres for Communications; 3.1 The Structure of Optical Fibres; 3.2 Modes of an Optical Fibre; 3.2.1 Modes of a Step-index Fibre; 3.2.2 Modes of a Graded-index Fibre; 3.3 Numerical Aperture and Acceptance Angle; 3.4 Dispersion in Optical Fibres; 3.4.1 Intermodal Dispersion; 3.4.2 Intramodal Dispersion 3.5 Single-mode Fibres: Mode Profile, Mode-field Diameter, and Spot Size3.6 Normalised Frequency, Normalised Propagation Constant, and Cutoff Wavelength; References; 4 Silicon-on-Insulator (SOI) Photonics; 4.1 Introduction; 4.2 Silicon-on-Insulator Waveguides; 4.2.1 Modes of Two-dimensional Waveguides; 4.3 The Effective Index Method of Analysis; 4.4 Large Single-mode Rib Waveguides; 4.5 Refractive Index and Loss Coefficient in Optical Waveguides; 4.6 Contributions to Loss in an Optical Waveguide; 4.6.1 Scattering; 4.6.2 Absorption; 4.6.3 Radiation; 4.7 Coupling to the Optical Circuit 4.7.1 Grating Couplers4.7.2 Butt Coupling and End-fire Coupling; 4.7.3 Robust Coupling to Waveguides for Commercial Applications; 4.7.4 Measurement of Propagation Loss in Integrated Optical Waveguides; 4.8 Optical Modulation Mechanisms in Silicon; 4.8.1 Electric Field Effects; 4.8.2 Carrier Injection or Depletion; 4.8.3 The Thermo-optic Effect; 4.9 Other Advantages and Disadvantages of Silicon Photonics; References; 5 Fabrication of Silicon Waveguide Devices; 5.1 Silicon-on-Insulator (SOI); 5.1.1 Separation by IMplanted OXygen (SIMOX); 5.1.2 Bond and Etch-back SOI (BESOI) 5.1.3 Wafer Splitting (SmartCut(®) Process to Produce Unibond(®) Wafers)5.1.4 Silicon Epitaxial Growth; 5.1.5 Deciding on the SOI; 5.2 Fabrication of Surface Etched Features; 5.2.1 Photolithography; 5.2.2 Silicon Etching; 5.2.3 Critical Dimension Control; 5.3 Oxidation; 5.4 Formation of Submicron Silicon Waveguides; 5.4.1 Silicon Dioxide Thickness; 5.4.2 Surface and Interface Roughness; 5.4.3 Sidewall Roughness; 5.5 Silicon Doping; 5.5.1 Ion Implantation; 5.5.2 The Implantation System; 5.5.3 Implantation Parameters; 5.5.4 Dopant Activation and Drive-in; 5.6 Metallisation; 5.6.1 Via Formation 5.6.2 Metal Deposition |
| Record Nr. | UNINA-9910830976003321 |
|
Reed Graham T
|
||
| Chichester ; ; Hoboken, NJ, : John Wiley, c2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Silicon photonics [[electronic resource] ] : an introduction / / Graham T. Reed, Andrew P. Knights
| Silicon photonics [[electronic resource] ] : an introduction / / Graham T. Reed, Andrew P. Knights |
| Autore | Reed Graham T |
| Pubbl/distr/stampa | Chichester ; ; Hoboken, NJ, : John Wiley, c2004 |
| Descrizione fisica | 1 online resource (277 p.) |
| Disciplina | 621.38152 |
| Altri autori (Persone) | KnightsAndrew P |
| Soggetto topico |
Optoelectronic devices
Silicon - Optical properties Photonics |
| ISBN |
1-280-27255-4
9786610272556 0-470-34594-2 0-470-87035-4 0-470-01418-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Silicon Photonics; Contents; About the Authors; Foreword; Acknowledgements; 1 Fundamentals; 1.1 What is Phase?; 1.2 What is Polarisation?; 1.3 What is Interference?; 2 The Basics of Guided Waves; 2.1 The Ray Optics Approach to Describing Planar Waveguides; 2.2 Reflection Coefficients; 2.3 Phase of a Propagating Wave and its Wavevector; 2.4 Modes of a Planar Waveguide; 2.4.1 The Symmetrical Planar Waveguide; 2.4.2 The Asymmetrical Planar Waveguide; 2.4.3 Solving the Eigenvalue Equations for Symmetrical and Asymmetrical Waveguides; 2.4.4 Monomode Conditions; 2.4.5 Effective Index of a Mode
2.5 A Taste of Electromagnetic Theory2.6 Simplifying and Solving the Wave Equation; 2.7 Another Look at Propagation Constants; 2.8 Mode Profiles; 2.9 Confinement Factor; 2.10 The Goos-Hänchen Shift; 3 Characteristics of Optical Fibres for Communications; 3.1 The Structure of Optical Fibres; 3.2 Modes of an Optical Fibre; 3.2.1 Modes of a Step-index Fibre; 3.2.2 Modes of a Graded-index Fibre; 3.3 Numerical Aperture and Acceptance Angle; 3.4 Dispersion in Optical Fibres; 3.4.1 Intermodal Dispersion; 3.4.2 Intramodal Dispersion 3.5 Single-mode Fibres: Mode Profile, Mode-field Diameter, and Spot Size3.6 Normalised Frequency, Normalised Propagation Constant, and Cutoff Wavelength; References; 4 Silicon-on-Insulator (SOI) Photonics; 4.1 Introduction; 4.2 Silicon-on-Insulator Waveguides; 4.2.1 Modes of Two-dimensional Waveguides; 4.3 The Effective Index Method of Analysis; 4.4 Large Single-mode Rib Waveguides; 4.5 Refractive Index and Loss Coefficient in Optical Waveguides; 4.6 Contributions to Loss in an Optical Waveguide; 4.6.1 Scattering; 4.6.2 Absorption; 4.6.3 Radiation; 4.7 Coupling to the Optical Circuit 4.7.1 Grating Couplers4.7.2 Butt Coupling and End-fire Coupling; 4.7.3 Robust Coupling to Waveguides for Commercial Applications; 4.7.4 Measurement of Propagation Loss in Integrated Optical Waveguides; 4.8 Optical Modulation Mechanisms in Silicon; 4.8.1 Electric Field Effects; 4.8.2 Carrier Injection or Depletion; 4.8.3 The Thermo-optic Effect; 4.9 Other Advantages and Disadvantages of Silicon Photonics; References; 5 Fabrication of Silicon Waveguide Devices; 5.1 Silicon-on-Insulator (SOI); 5.1.1 Separation by IMplanted OXygen (SIMOX); 5.1.2 Bond and Etch-back SOI (BESOI) 5.1.3 Wafer Splitting (SmartCut(®) Process to Produce Unibond(®) Wafers)5.1.4 Silicon Epitaxial Growth; 5.1.5 Deciding on the SOI; 5.2 Fabrication of Surface Etched Features; 5.2.1 Photolithography; 5.2.2 Silicon Etching; 5.2.3 Critical Dimension Control; 5.3 Oxidation; 5.4 Formation of Submicron Silicon Waveguides; 5.4.1 Silicon Dioxide Thickness; 5.4.2 Surface and Interface Roughness; 5.4.3 Sidewall Roughness; 5.5 Silicon Doping; 5.5.1 Ion Implantation; 5.5.2 The Implantation System; 5.5.3 Implantation Parameters; 5.5.4 Dopant Activation and Drive-in; 5.6 Metallisation; 5.6.1 Via Formation 5.6.2 Metal Deposition |
| Record Nr. | UNINA-9910841222903321 |
|
Reed Graham T
|
||
| Chichester ; ; Hoboken, NJ, : John Wiley, c2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Soggetto topico
-
Silicon - Optical properties
(14)
- Optoelectronic devices (12)
- Photonics (12)
- Photonics - Materials (1)
- Quantum dots (1)