spContent=Course Background
1、Semiconductor and microelectronic technologies are vital for our national development;
2、Optoelectronics are an important and fast growing high-tech industry;
3、The interdisciplinary study between physics, materials science and electronic engineering and optical engineering becomes a new trend and indispensable for our technological talents.
Course Feature
1、Interactive lectures and homework;
2、Understanding and application of book knowledge and real device examples;
3、Teamed presentation and discussion of new technological ideas.
Course Background
1、Semiconductor and microelectronic technologies are vital for our national development;
2、Optoelectronics are an important and fast growing high-tech industry;
3、The interdisciplinary study between physics, materials science and electronic engineering and optical engineering becomes a new trend and indispensable for our technological talents.
Course Feature
1、Interactive lectures and homework;
2、Understanding and application of book knowledge and real device examples;
3、Teamed presentation and discussion of new technological ideas.
—— 课程团队
课程概述
Course Introduction
This course reviews the basic knowledge of solid state physics and semiconductor devices such as PN junction, followed by the theory and application of various optoelectronic devices such as photodetectors, solar cells, lasers and LEDs, optical amplifier and modulator etc. This class will also discuss recent advancements in optoelectronics, such as novel two-dimensional materials related research and the application of flexible optoelectronics in biomedical and energy fields. The students are expected to understand the theory and operation of different optoelectronic devices and be able to apply these device knowledges in their industrial and research work.
成绩 要求
课程大纲
Introduction and Background
课时目标:Learn the basic principles of electromagnetic waves and light transmission in waveguides and optical fibers.
1.1 Development history of optoelectronics
1.2 Basic concepts in optoelectronics
1.3 Electromagnetic wave basics
1.4 Light matter interaction I
1.5 Light mater interaction II
1.6 Dielectric waveguides
1.7 Optical fibers I
1.8 Optical fibers II
1.9 Optical fibers III
1.10 Example questions
Light Generation
课时目标:Master the working principles for light generation processes.
2.1 Optoelectronic semiconductors
2.2 Electronic device basics
2.3 Junctions
2.4 LED working principles
2.5 Laser working principles
2.6 Semiconductor laser
2.7 Example questions
Light Detection and Energy Conversion
课时目标:Master the working principles for light detection and energy conversion processes.
3.1 Photodetector working principles
3.2 Types of photodetectors
3.3 Photodetector and image sensor
3.4 Photovoltaic working principles
3.5 Example questions
Light Modulation
课时目标:Learn the basic principles of light modulation processes.
4.1 Modulator I
4.2 Modulator II
4.3 Polarization I
4.4 Polarization II
4.5 Example questions
Case Study
课时目标:Get to know the design rules to maximize the optoelectronic device performance;Get to know the recent technological development and be able to apply advanced optoelectronic technology in future work and research.
5.1 LED
5.2 Solar cells
5.3 Photodetector
5.4 Reconstructive spectrometer
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