نام كتاب :Semiconductor Laser Fundamentalsنويسنده :Toshiaki Suharaانتشارات : Marcel Dekker-2004تعداد صفحات : 306 صفحهحجم فايل : 2.43 مگابايتفصول كتاب:Introduction1.1 Principles and Device Structures of Semiconductor Lasers1.2 Materials for Semiconductor Lasers1.3 Features of Semiconductor Injection Lasers1.4 Applications of Semiconductor LasersReferences2. Interaction of Electrons and Photons2.1 Quantization of Optical Waves and Photons2.2 Interactions of Electrons and Photons2.3 Absorption and Emission of Photons2.4 Population Inversion and Light AmplificationReferences3. Stimulated Emission and Optical Gain in Semiconductors3.1 Band Structure of Semiconductors andStimulated Emission3.2 Direct-Transition Model3.3 Gaussian Halperin–Lax Band-Tail Model withthe Stern Energy-Dependent Matrix Element3.4 Gain Spectrum and Gain Factor3.5 Spontaneous Emission and Injection Current Density3.6 Density Matrix AnalysisReferences4. Stimulated Emission in Quantum Well Structures4.1 Electron State in Quantum Well Structures4.2 Direct-Transition Model4.3 Gain Spectrum and Gain FactorCopyright © 2004 Marcel Dekker, Inc.4.4 Spontaneous Emission and Injection Current Density4.5 Strained Quantum WellsReferences5. Semiconductor Heterostructure Optical Waveguides5.1 Outline of Optical Waveguides forSemiconductor Lasers5.2 Fundamental Equations for the Optical Wave5.3 Optical Wave in a Waveguide5.4 Planar Waveguide5.5 Perturbation Theory and the OpticalConfinement Factor5.6 Channel Waveguides5.7 Reflection at Waveguide Facets5.8 Waveguide Fabry–Perot Resonator5.9 Far-Field PatternsReferences6. Characteristics of Semiconductor Lasers6.1 Semiconductor Laser Structure and Outline of Oscillation6.2 Rate Equations6.3 Steady-State Oscillation Characteristics6.4 Modulation Characteristics6.5 Noise Characteristics6.6 Single-Mode Spectrum and Spectrum Linewidth6.7 Ultrashort Optical Pulse GenerationReferences7. Distributed Feedback Lasers7.1 Dynamic Single-Mode Lasers7.2 Coupled-Mode Equations7.3 Distributed Feedback Lasers7.4 Distributed Bragg Reflector LasersReferences8. Semiconductor Laser Amplifiers8.1 Gain Spectrum and Gain Saturation8.2 Resonant Laser Amplifiers8.3 Traveling-Wave Laser Amplifiers8.4 Tapered Laser Amplifiers8.5 Master Oscillator Power AmplifierReferencesAppendix 1. Outline of Density Matrix AnalysisA1.1 Definition of Density Matrix andExpectation ValuesA1.2 Equation of Motion for the Density OperatorAppendix 2. Density of States for ElectronsA2.1 Three-Dimensional StateA2.2 Two-Dimensional StateA2.3 One-Dimensional StateAppendix 3. The Kramers–Kronig RelationAppendix 4. Experimental Determination ofGain and Internal LossAppendix 5. Spontaneous Emission Term and Factors
نام كتاب :Semiconductor Laser Fundamentalsنويسنده :Toshiaki Suharaانتشارات : Marcel Dekker-2004تعداد صفحات : 306 صفحهحجم فايل : 2.43 مگابايتفصول كتاب:Introduction1.1 Principles and Device Structures of Semiconductor Lasers1.2 Materials for Semiconductor Lasers1.3 Features of Semiconductor Injection Lasers1.4 Applications of Semiconductor LasersReferences2. Interaction of Electrons and Photons2.1 Quantization of Optical Waves and Photons2.2 Interactions of Electrons and Photons2.3 Absorption and Emission of Photons2.4 Population Inversion and Light AmplificationReferences3. Stimulated Emission and Optical Gain in Semiconductors3.1 Band Structure of Semiconductors andStimulated Emission3.2 Direct-Transition Model3.3 Gaussian Halperin–Lax Band-Tail Model withthe Stern Energy-Dependent Matrix Element3.4 Gain Spectrum and Gain Factor3.5 Spontaneous Emission and Injection Current Density3.6 Density Matrix AnalysisReferences4. Stimulated Emission in Quantum Well Structures4.1 Electron State in Quantum Well Structures4.2 Direct-Transition Model4.3 Gain Spectrum and Gain FactorCopyright © 2004 Marcel Dekker, Inc.4.4 Spontaneous Emission and Injection Current Density4.5 Strained Quantum WellsReferences5. Semiconductor Heterostructure Optical Waveguides5.1 Outline of Optical Waveguides forSemiconductor Lasers5.2 Fundamental Equations for the Optical Wave5.3 Optical Wave in a Waveguide5.4 Planar Waveguide5.5 Perturbation Theory and the OpticalConfinement Factor5.6 Channel Waveguides5.7 Reflection at Waveguide Facets5.8 Waveguide Fabry–Perot Resonator5.9 Far-Field PatternsReferences6. Characteristics of Semiconductor Lasers6.1 Semiconductor Laser Structure and Outline of Oscillation6.2 Rate Equations6.3 Steady-State Oscillation Characteristics6.4 Modulation Characteristics6.5 Noise Characteristics6.6 Single-Mode Spectrum and Spectrum Linewidth6.7 Ultrashort Optical Pulse GenerationReferences7. Distributed Feedback Lasers7.1 Dynamic Single-Mode Lasers7.2 Coupled-Mode Equations7.3 Distributed Feedback Lasers7.4 Distributed Bragg Reflector LasersReferences8. Semiconductor Laser Amplifiers8.1 Gain Spectrum and Gain Saturation8.2 Resonant Laser Amplifiers8.3 Traveling-Wave Laser Amplifiers8.4 Tapered Laser Amplifiers8.5 Master Oscillator Power AmplifierReferencesAppendix 1. Outline of Density Matrix AnalysisA1.1 Definition of Density Matrix andExpectation ValuesA1.2 Equation of Motion for the Density OperatorAppendix 2. Density of States for ElectronsA2.1 Three-Dimensional StateA2.2 Two-Dimensional StateA2.3 One-Dimensional StateAppendix 3. The Kramers–Kronig RelationAppendix 4. Experimental Determination ofGain and Internal LossAppendix 5. Spontaneous Emission Term and Factors