In the teaching of the course ' Optical fiber communication technology ', the main focus is on cultivating scientific thinking and innovative abilities, emphasizing the principles of basic knowledge education and skill training, enhancing students' theoretical literacy, and cultivating their international perspective and competitiveness; At the same time, explore the advantages and roles of bilingual teaching in talent cultivation, and form a bilingual teaching model that is in line with international advanced teaching concepts and also in line with actual situation. In terms of teaching content, the main focus is to enable students to master the basic components of fiber optic communication systems, relevant basic knowledge and technologies, including wave-particle duality of light, fiber optic transmission theory and characteristics, fiber optic production and structure, various optical passive devices, optical communication light sources and transmitters, optical detectors and receivers; The principles and related technologies of optical amplifiers, including semiconductor laser amplifiers, erbium-doped fiber amplifiers, and Raman fiber amplifiers. While enriching students' professional knowledge and English proficiency, it also enhances their engineering and technical skills and prepares them for future research work.
Overview
Syllabus
- Chapter 1 Optical Fiber Communication System
- 1.1 Particle Nature of Light 1
- 1.2 Particle Nature of Light 2
- 1.3 Nature of Light-Electromagnetic theory of light
- 1.4 Nature of Light-Interference and diffraction of light
- 1.5 Nature of Light-Polarization of light
- 1.6 Chapter 1 Testing
- Chapter 2 Optic Fiber Waveguides
- 2.1 The Development of Optical Fiber
- 2.2 Basic Concepts of Step-Index Optical Fibers
- 2.3 Classification and Application of step-index optical fibers
- 2.4 Graded-index Fiber 1
- 2.5 Graded-index Fiber 2
- 2.6 Fiber Attenuation 1-Absorption
- 2.7 Fiber Attenuation 2-Scattering
- 2.8 Fiber Attenuation 3-Geometric Effects
- 2.9 Chapter 2 Testing
- Chapter 3 Optical Sources and Amplifiers
- 3.1 Light Emitting Diode 1- Basic Principles
- 3.2 Light Emitting Diode 2- Fermi Level
- 3.3 Light Emitting Diode 3- The Working Principle of PN Junction
- 3.4 Light Emitting Diodes-Light-emitting diodes operating characteristics
- 3.5 Laser Diode 1- Laser Development
- 3.6 Laser Diode 2- Laser Principles
- 3.7 Laser Diode 3- Laser Characteristics and Applications
- 3.8 Laser Diodes-Laser diodes operating characteristics
- 3.9 Modulation Format of Light Sources
- 3.10 Optical Amplifier 1- Development of Optical Amplifiers
- 3.11 Chapter 3 Testing
- Chapter 4 Light Detectors
- 4.1 Principles of Light Detection1 -Principle
- 4.2 Principles of Light Detection 2-Classification
- 4.3 Photomultiplier Tube 1- Development
- 4.4 Photomultiplier Tube 2- Principle
- 4.5 Photomultiplier Tube 3- Characteristics
- 4.6 Semiconductor Photodiode1
- 4.7 Semiconductor Photodiode2
- 4.8 Pin Photodiode 1- Principle
- 4.9 Pin Photodiode2 - Operating Characteristics1
- 4.10 Pin Photodiode3 - Operating Characteristics2
- 4.11 Avalanche Photodiode
- 4.12 Chapter 4 Testing
- Final Exam
Taught by
Luo Li, Jie Li, Min Zhong, Yu He, and Wenjuan Wu