课件内容:
第一章 光学基础知识与光场传播规律
1.0-Introduction
1.1.1-Historical Background
1.1.2-Historical Background
1.1.3-Historical Background
1.2.1-Maxwell\’s Equations: Differential Form
1.2.2-Vector Operation
1.2.3-Interaction with Matter
1.2.4-Maxwell\’s Equations: Integral Form
1.2.5-Maxwell\’s Equations: Physical Meaning
1.3-Wave Equation
1.4-The Polarization of Light
1.5-Reflection and Refraction
1.6-Interference and Diffraction
第三章 Semiconductor Science and Light-Emitting Diodes
3.1 Review of Semiconductor Concepts and Energy Bands
3.2 Semiconductor Statistics
3.3 Extrinsic Semiconductors
3.4 Direct and Indirect Bandgap emiconductors: E-k Diagrams
3.5 pn Junction Principles
3.6 pn Junction Reverse Current
3.7 pn Junction Dynamic Resistance and Capacitances
3.8 Recombination Lifetime
3.9 pn Junction Band Diagram
3.10 Heterojunctions
3.11 Light-Emitting Diodes: Principles
3.12 Quantum Well High Intensity LEDs
3.13 LED Materials and Structures
3.14 LED Efficiencies and Luminous Flux
3.15 Basic LED Characteristics
3.16 LEDs for Optical Fiber Communications
3.17 Phosphors and White LEDs
第四章 Stimulated Emission Devices: Optical Amplifiers and Lasers
4.1 Stimulated Emission Photon Amplification and Lasers
4.9 Principle of the Laser Diode
4.10 Heterostructure Laser Diodes
4.11 Quantum Well Devices
4.12 Elementary Laser Diode Characteristics
4.13 Steady State Semiconductor Rate Equations: The Laser Diode Equation
4.14 Single Frequency Semiconductor Lasers
4.15 Vertical Cavity Surface Emitting Lasers
4.16 Semiconductor Optical Amplifiers
第五章 Photodetectors and Image Sensors
5.1 Principle of the pn Junction Photodiode
5.2 Shockley-Ramo Theorem and External Photocurrent
5.3 Absorption Coefficient and Photodetector Materials
5.4 Quantum Efficiency and Responsivity
5.5 The pin Photodiode
5.6 Avalanche Photodiode
《光电子学》PPT课件 南京邮电大学 郭艳东
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