Graduate Institute Of Photonics And Optoelectronics( Phd Program )
Educational Objectives
  1. Solid professional education in Photonics and Optoelectronics
  2. High quality photonic and optoelectronic technological research
  3. Profound vision of photonic and optoelectronic industry and academia
  4. Broad international horizon
Core Capabilities
  1. To gain basic knowledge of photonic and optoelectronics and grow in ability to apply it in that field
  2. To plan and execute research, develop professional skills and possess data analysis abilities
  3. To possess the ability to record research achievements in Chinese and English; doctorate students must also possess the ability to write papers in English for journals
  4. To think and analyze, then solve problems, or contribute innovative research ideas
  5. To understand the knowledge and skills of different fields
  6. To understand how one’s research will affect living environment and international society
  7. To lead research teams in carrying out experiments or present findings at a seminar
  8. To comprehend academic ethics, respect intellectual property rights, continuously study and grow in knowledge of the professional field
Table of Core Capabilities and Curriculum Planning
Curriculum Planning
Curriculum Planning Map
Course List
Course TypeCourse Title (Recommended Year of Study)
Optics Mathematical Physics(12) Special Topics on Thin-film Technology(12) Fourier Transform and Fourier Optics(12) Special Research(12) Seminar(12) Optical Holography and Applications(12) Interference and Thin Film(12) Optics(12) Medical Photonics(12) Optical System Design(12) Micro-optics(12)
Photonics and Electromagnetics Integrated Optics(12) Optoelectronic Electromagnetics(12) Photonic Crystals(12) Fundamentals and Applications of Optical Waveguides(12) Silicon Photonics(12) Photon Scattering(12) Simulation of Light Scattering and Propagation(12)
Lasers Nonlinear Optics(12) Ultrafast Photonics(12) Optical Electronics(12) Applications of Nonlinear Optics(12) Advanced Laser Technologies(12) Applications of Laser and Nonlinear Crystals(12) Solid-state Lasers(12) Principles of Semiconductor Lasers(12) Fundamentals of Lasers(12) Crystal Photonics(12)
Semiconductor Optoelectronics Physics of Semiconductor Devices(12) Integrated Circuit Technology(12) Compound Semiconductor Technology(12) Semiconductor Optics(12) Advanced Semiconductor Optics(12) Wide Gap Semiconductor Technologies(12) Short-wavelength Semiconductor Engineering(12) Electro-optical Instrumentation(12) Semiconductor Physics in Optical-electronics(12) Analysis Techniques of Optoelectronics Materials(12) Compound Semiconductor Characterization Technologies(12) Optoelectronic Device Program Simulation(12) Solar Cells: Physics and Applications(12)
Optical Communications Optical Communication Systems(12) Introduction to Lightwave Devices(12) Optical Fiber Sensing(12) Optical Components for Communication Principles and Applications(12) Wdm Fiber Communication Technology(12)
Nanophotonics Submicron Edvices(12) Principles and Applications of Quantum Physics(12) Nano-photonics(12) Optical Nano-electro-mechanical System(12) Nano Optoelectronics Semiconductor Processing Technology(12) Nanoscience Lab (Ⅱ)(12) Principle and Application of Surface Plasmon(12)
Energy and Display Introduction to Liquid Crystals(12) Organic Semiconductors for Optoelectronic and Electronic Devices(12) Introduction to Display Technologies(12) Color Science(12) Liquid Crystal Display Technologies(12) Solid State Lighting(12) Design and Fabrication of Light-emitting Diodes(12) Fundamentals of Flexible Optoelectronics(12) Solar Cell Technology(12) Nobel Laureate Lectures on Solid-State Lighting(12) Developments of Photonics and Optoelectronics Technologies(12) Next Generation Display Technology and Industry Development(12)
Future Map
Future Map