The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics:
Gespeichert in:
| Format: | Elektronisch E-Book |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Weinheim
Wiley
2014
|
| Schlagworte: | |
| Online-Zugang: | EBB01 UER01 |
| Beschreibung: | 3.6.3 1260 nm Disk Gain Structure. - Written by a team of European experts in the field, this book addresses the physics, the principles, the engineering methods, and the latest developments of efficient and compact ultrafast lasers based on novel quantum-dot structures and devices, as well as their applications in biophotonics. Recommended reading for physicists, engineers, students and lecturers in the fields of photonics, optics, laser physics, optoelectronics, and biophotonics Includes bibliographical references and index |
| Beschreibung: | 1 Online-Ressource |
| ISBN: | 9783527665617 3527665617 9783527665600 3527665609 9783527665587 3527665587 |
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| 245 | 1 | 0 | |a The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics |c ed. by Edik U. Rafailov |
| 264 | 1 | |a Weinheim |b Wiley |c 2014 | |
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| 500 | |a 3.6.3 1260 nm Disk Gain Structure. - Written by a team of European experts in the field, this book addresses the physics, the principles, the engineering methods, and the latest developments of efficient and compact ultrafast lasers based on novel quantum-dot structures and devices, as well as their applications in biophotonics. Recommended reading for physicists, engineers, students and lecturers in the fields of photonics, optics, laser physics, optoelectronics, and biophotonics | ||
| 500 | |a Includes bibliographical references and index | ||
| 505 | 0 | |a The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics; Contents; Foreword; List of Contributors; Chapter Introduction; References; Chapter 1 Quantum Dot Technologies; 1.1 Motivation for Development of Quantum Dots; 1.2 Gain and Quantum Confinement in a Semiconductor Laser; 1.2.1 Top-Down Approach; 1.2.2 Bottom-Up Approach; 1.3 Self-Assembled Quantum Dot Technology; 1.3.1 Molecular Beam Epitaxy; 1.3.2 Growth Modes; 1.3.3 Quantum Dot Growth Dynamics; 1.3.3.1 The Interaction of the Quantum Dot and the Wetting Layer | |
| 505 | 0 | |a 1.3.3.2 The Interaction of the Quantum Dot with Underlying Layers and Capping Layers1.3.3.3 Growth Interruption; 1.3.3.4 Arsenic Pressure; 1.3.3.5 Growth Temperature; 1.3.3.6 Growth Rate and Material Coverage; 1.3.4 Quantum Dot Growth Thermodynamic Processes; 1.4 Physics and Device Properties of S-K Quantum Dots; 1.4.1 Temperature Insensitivity; 1.4.2 Low Threshold Current Density; 1.4.3 Material Gain and Modal Gain; 1.4.4 Broad Spectral Bandwidth Devices and Spectral Coverage; 1.4.5 Ultrafast Gain Recovery; 1.5 Extension of Emission Wavelength of GaAs-Based Quantum Dots | |
| 505 | 0 | |a 1.5.1 Short-Wavelength Quantum Dot Light Emission1.5.1.1 InP/GaInP Quantum Dots; 1.5.1.2 Type II InAlAs/AlGaAs Quantum Dots; 1.5.2 Long-Wavelength QD Light Emission; 1.5.2.1 Low Growth Temperature InAs/GaAs Quantum Dots; 1.5.2.2 InAs QDs Grown on an InGaAs Metamorphic Layer; 1.5.2.3 InGaAsSb Capped InAs/GaAs Quantum Dots and InGaNAs Capped InAs/GaAs Quantum Dots; 1.5.2.4 Bilayer InAs/GaAs QD Structures; 1.5.2.5 Asymmetric Dot in WELL QD Structure; 1.6 Future Prospects; Acknowledgments; References; Chapter 2 Ultra-Short-Pulse QD Edge-Emitting Lasers; 2.1 Introduction; 2.2 Simulations | |
| 505 | 0 | |a 2.3 Broadly Tunable Frequency-Doubled EC-QD Lasers2.4 Two-Section Monolithic Mode-Locked QD Lasers; 2.4.1 Simultaneous GS and ES ML; 2.4.2 QD Absorber Resistor-SEED Functionality; 2.4.3 Pulse Width Narrowing due to GS Splitting; 2.5 Tapered Monolithic Mode-Locked QD Lasers; 2.5.1 High-Peak Power and Subpicosecond Pulse Generation; 2.5.2 Suppression of Pulse Train Instabilities of Tapered QD-MLLs; 2.6 QD-SOAs; 2.6.1 Straight-Waveguide QD-SOAs; 2.6.2 Tapered-Waveguide QD-SOAs; 2.6.3 QD-SOA Noise; 2.7 Pulsed EC-QD Lasers with Tapered QD-SOA; 2.7.1 EC-MLQDL | |
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| contents | The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics; Contents; Foreword; List of Contributors; Chapter Introduction; References; Chapter 1 Quantum Dot Technologies; 1.1 Motivation for Development of Quantum Dots; 1.2 Gain and Quantum Confinement in a Semiconductor Laser; 1.2.1 Top-Down Approach; 1.2.2 Bottom-Up Approach; 1.3 Self-Assembled Quantum Dot Technology; 1.3.1 Molecular Beam Epitaxy; 1.3.2 Growth Modes; 1.3.3 Quantum Dot Growth Dynamics; 1.3.3.1 The Interaction of the Quantum Dot and the Wetting Layer 1.3.3.2 The Interaction of the Quantum Dot with Underlying Layers and Capping Layers1.3.3.3 Growth Interruption; 1.3.3.4 Arsenic Pressure; 1.3.3.5 Growth Temperature; 1.3.3.6 Growth Rate and Material Coverage; 1.3.4 Quantum Dot Growth Thermodynamic Processes; 1.4 Physics and Device Properties of S-K Quantum Dots; 1.4.1 Temperature Insensitivity; 1.4.2 Low Threshold Current Density; 1.4.3 Material Gain and Modal Gain; 1.4.4 Broad Spectral Bandwidth Devices and Spectral Coverage; 1.4.5 Ultrafast Gain Recovery; 1.5 Extension of Emission Wavelength of GaAs-Based Quantum Dots 1.5.1 Short-Wavelength Quantum Dot Light Emission1.5.1.1 InP/GaInP Quantum Dots; 1.5.1.2 Type II InAlAs/AlGaAs Quantum Dots; 1.5.2 Long-Wavelength QD Light Emission; 1.5.2.1 Low Growth Temperature InAs/GaAs Quantum Dots; 1.5.2.2 InAs QDs Grown on an InGaAs Metamorphic Layer; 1.5.2.3 InGaAsSb Capped InAs/GaAs Quantum Dots and InGaNAs Capped InAs/GaAs Quantum Dots; 1.5.2.4 Bilayer InAs/GaAs QD Structures; 1.5.2.5 Asymmetric Dot in WELL QD Structure; 1.6 Future Prospects; Acknowledgments; References; Chapter 2 Ultra-Short-Pulse QD Edge-Emitting Lasers; 2.1 Introduction; 2.2 Simulations 2.3 Broadly Tunable Frequency-Doubled EC-QD Lasers2.4 Two-Section Monolithic Mode-Locked QD Lasers; 2.4.1 Simultaneous GS and ES ML; 2.4.2 QD Absorber Resistor-SEED Functionality; 2.4.3 Pulse Width Narrowing due to GS Splitting; 2.5 Tapered Monolithic Mode-Locked QD Lasers; 2.5.1 High-Peak Power and Subpicosecond Pulse Generation; 2.5.2 Suppression of Pulse Train Instabilities of Tapered QD-MLLs; 2.6 QD-SOAs; 2.6.1 Straight-Waveguide QD-SOAs; 2.6.2 Tapered-Waveguide QD-SOAs; 2.6.3 QD-SOA Noise; 2.7 Pulsed EC-QD Lasers with Tapered QD-SOA; 2.7.1 EC-MLQDL |
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| dewey-ones | 571 - Physiology & related subjects |
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| discipline | Physik Biologie |
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| spelling | The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics ed. by Edik U. Rafailov Weinheim Wiley 2014 1 Online-Ressource txt rdacontent c rdamedia cr rdacarrier 3.6.3 1260 nm Disk Gain Structure. - Written by a team of European experts in the field, this book addresses the physics, the principles, the engineering methods, and the latest developments of efficient and compact ultrafast lasers based on novel quantum-dot structures and devices, as well as their applications in biophotonics. Recommended reading for physicists, engineers, students and lecturers in the fields of photonics, optics, laser physics, optoelectronics, and biophotonics Includes bibliographical references and index The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics; Contents; Foreword; List of Contributors; Chapter Introduction; References; Chapter 1 Quantum Dot Technologies; 1.1 Motivation for Development of Quantum Dots; 1.2 Gain and Quantum Confinement in a Semiconductor Laser; 1.2.1 Top-Down Approach; 1.2.2 Bottom-Up Approach; 1.3 Self-Assembled Quantum Dot Technology; 1.3.1 Molecular Beam Epitaxy; 1.3.2 Growth Modes; 1.3.3 Quantum Dot Growth Dynamics; 1.3.3.1 The Interaction of the Quantum Dot and the Wetting Layer 1.3.3.2 The Interaction of the Quantum Dot with Underlying Layers and Capping Layers1.3.3.3 Growth Interruption; 1.3.3.4 Arsenic Pressure; 1.3.3.5 Growth Temperature; 1.3.3.6 Growth Rate and Material Coverage; 1.3.4 Quantum Dot Growth Thermodynamic Processes; 1.4 Physics and Device Properties of S-K Quantum Dots; 1.4.1 Temperature Insensitivity; 1.4.2 Low Threshold Current Density; 1.4.3 Material Gain and Modal Gain; 1.4.4 Broad Spectral Bandwidth Devices and Spectral Coverage; 1.4.5 Ultrafast Gain Recovery; 1.5 Extension of Emission Wavelength of GaAs-Based Quantum Dots 1.5.1 Short-Wavelength Quantum Dot Light Emission1.5.1.1 InP/GaInP Quantum Dots; 1.5.1.2 Type II InAlAs/AlGaAs Quantum Dots; 1.5.2 Long-Wavelength QD Light Emission; 1.5.2.1 Low Growth Temperature InAs/GaAs Quantum Dots; 1.5.2.2 InAs QDs Grown on an InGaAs Metamorphic Layer; 1.5.2.3 InGaAsSb Capped InAs/GaAs Quantum Dots and InGaNAs Capped InAs/GaAs Quantum Dots; 1.5.2.4 Bilayer InAs/GaAs QD Structures; 1.5.2.5 Asymmetric Dot in WELL QD Structure; 1.6 Future Prospects; Acknowledgments; References; Chapter 2 Ultra-Short-Pulse QD Edge-Emitting Lasers; 2.1 Introduction; 2.2 Simulations 2.3 Broadly Tunable Frequency-Doubled EC-QD Lasers2.4 Two-Section Monolithic Mode-Locked QD Lasers; 2.4.1 Simultaneous GS and ES ML; 2.4.2 QD Absorber Resistor-SEED Functionality; 2.4.3 Pulse Width Narrowing due to GS Splitting; 2.5 Tapered Monolithic Mode-Locked QD Lasers; 2.5.1 High-Peak Power and Subpicosecond Pulse Generation; 2.5.2 Suppression of Pulse Train Instabilities of Tapered QD-MLLs; 2.6 QD-SOAs; 2.6.1 Straight-Waveguide QD-SOAs; 2.6.2 Tapered-Waveguide QD-SOAs; 2.6.3 QD-SOA Noise; 2.7 Pulsed EC-QD Lasers with Tapered QD-SOA; 2.7.1 EC-MLQDL SCIENCE / Life Sciences / Anatomy & Physiology bisacsh Photobiology Photonics Light Quantenpunktlaser (DE-588)4767124-5 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Quantenpunktlaser (DE-588)4767124-5 s DE-604 Rafailov, Edik U. Sonstige (DE-588)1047467496 oth |
| spellingShingle | The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics; Contents; Foreword; List of Contributors; Chapter Introduction; References; Chapter 1 Quantum Dot Technologies; 1.1 Motivation for Development of Quantum Dots; 1.2 Gain and Quantum Confinement in a Semiconductor Laser; 1.2.1 Top-Down Approach; 1.2.2 Bottom-Up Approach; 1.3 Self-Assembled Quantum Dot Technology; 1.3.1 Molecular Beam Epitaxy; 1.3.2 Growth Modes; 1.3.3 Quantum Dot Growth Dynamics; 1.3.3.1 The Interaction of the Quantum Dot and the Wetting Layer 1.3.3.2 The Interaction of the Quantum Dot with Underlying Layers and Capping Layers1.3.3.3 Growth Interruption; 1.3.3.4 Arsenic Pressure; 1.3.3.5 Growth Temperature; 1.3.3.6 Growth Rate and Material Coverage; 1.3.4 Quantum Dot Growth Thermodynamic Processes; 1.4 Physics and Device Properties of S-K Quantum Dots; 1.4.1 Temperature Insensitivity; 1.4.2 Low Threshold Current Density; 1.4.3 Material Gain and Modal Gain; 1.4.4 Broad Spectral Bandwidth Devices and Spectral Coverage; 1.4.5 Ultrafast Gain Recovery; 1.5 Extension of Emission Wavelength of GaAs-Based Quantum Dots 1.5.1 Short-Wavelength Quantum Dot Light Emission1.5.1.1 InP/GaInP Quantum Dots; 1.5.1.2 Type II InAlAs/AlGaAs Quantum Dots; 1.5.2 Long-Wavelength QD Light Emission; 1.5.2.1 Low Growth Temperature InAs/GaAs Quantum Dots; 1.5.2.2 InAs QDs Grown on an InGaAs Metamorphic Layer; 1.5.2.3 InGaAsSb Capped InAs/GaAs Quantum Dots and InGaNAs Capped InAs/GaAs Quantum Dots; 1.5.2.4 Bilayer InAs/GaAs QD Structures; 1.5.2.5 Asymmetric Dot in WELL QD Structure; 1.6 Future Prospects; Acknowledgments; References; Chapter 2 Ultra-Short-Pulse QD Edge-Emitting Lasers; 2.1 Introduction; 2.2 Simulations 2.3 Broadly Tunable Frequency-Doubled EC-QD Lasers2.4 Two-Section Monolithic Mode-Locked QD Lasers; 2.4.1 Simultaneous GS and ES ML; 2.4.2 QD Absorber Resistor-SEED Functionality; 2.4.3 Pulse Width Narrowing due to GS Splitting; 2.5 Tapered Monolithic Mode-Locked QD Lasers; 2.5.1 High-Peak Power and Subpicosecond Pulse Generation; 2.5.2 Suppression of Pulse Train Instabilities of Tapered QD-MLLs; 2.6 QD-SOAs; 2.6.1 Straight-Waveguide QD-SOAs; 2.6.2 Tapered-Waveguide QD-SOAs; 2.6.3 QD-SOA Noise; 2.7 Pulsed EC-QD Lasers with Tapered QD-SOA; 2.7.1 EC-MLQDL SCIENCE / Life Sciences / Anatomy & Physiology bisacsh Photobiology Photonics Light Quantenpunktlaser (DE-588)4767124-5 gnd |
| subject_GND | (DE-588)4767124-5 (DE-588)4143413-4 |
| title | The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics |
| title_auth | The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics |
| title_exact_search | The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics |
| title_full | The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics ed. by Edik U. Rafailov |
| title_fullStr | The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics ed. by Edik U. Rafailov |
| title_full_unstemmed | The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics ed. by Edik U. Rafailov |
| title_short | The Physics and Engineering of Compact Quantum Dot-based Lasers for Biophotonics |
| title_sort | the physics and engineering of compact quantum dot based lasers for biophotonics |
| topic | SCIENCE / Life Sciences / Anatomy & Physiology bisacsh Photobiology Photonics Light Quantenpunktlaser (DE-588)4767124-5 gnd |
| topic_facet | SCIENCE / Life Sciences / Anatomy & Physiology Photobiology Photonics Light Quantenpunktlaser Aufsatzsammlung |
| work_keys_str_mv | AT rafailovediku thephysicsandengineeringofcompactquantumdotbasedlasersforbiophotonics |