1. Educational objectives
This subject is dedicated to cultivate high-level talents with solid theoretical foundation and systematic professional knowledge in the areas of optical engineering. The degree candidates should know the direction of academic development as well as international research trends, and be able to carry out scientific research and technical work independently. In addition, with new insights into science and professional technology, degree candidates are qualified for research, teaching, engineering and managing job in the field and relevant disciplines.
2. Length of schooling
The length of schooling is three and a half years.
3. Research areas
Optical film and display technology
Photonic crystals and metamaterial
Modern optical imaging technology
Laser technology and optoelectronic device
Precision optoelectronic detection technology
4. Credits
Total credits should be acquired are at least 14, including 4 credits on public degree courses, 8 credits on professional degree courses and elective courses, 2 credits on Reading reports. The elective courses of PE are noncredit.
5. Reading reports
Every doctoral graduate is required to make reading reports or attend seminar at least 6 times, including 1 to 2 times on the academic forum in public. Making reading reports 6 times will get 2 credits.
6. Topic reports
The time is determined by research progress, but cannot be later than the end of the second academic year. In prescribed form, the topic report should be examined by advisor and other teachers of the same field in public.
7. Publication
At least one paper related to the dissertation should be published in English journal (SCI indexed), and at least one paper related to the dissertation should be published (or accepted) in first class journal.
8. Curriculum
Type | Course code | Course | Credit | Hour | Semester | Remark |
Public | 0510001 | English for PhD Student | 2 | 32 | Autumn, Winter | Degree |
0410001 | Modern Scientific Progress and Marxism | 2 | 32 | Autumn, Winter | Degree | |
Degree | 1111101 | Nanophotonics | 3 | 48 | Spring | Select 2 of them |
3011104 | Electromagnetic Wave Theory | 3 | 48 | Spring | ||
3011105 | Basis of Optical Quantum Information Technology | 3 | 48 | Spring | ||
1111141 | Special Topics in Optics | 1 | 16 | Summer | Compulsory | |
Elective | 1113140 | Specialized English for PhD Student(compulsory) | 1 | 16 | Winter | |
1121127 | Modern Sensor(in English) | 2 | 32 | Winter | ||
1121109 | Optical Electromagnetic Theory | 3 | 48 | Autumn and Winter | ||
1113103 | Nonlinear Optics | 2 | 32 | Spring | ||
1111102 | Nano Technology and System | 2 | 32 | Spring | ||
1121153 | Semiconductor Optoelectronics | 2 | 32 | Summer | ||
1121155 | Modern Laser Technology | 2 | 32 | Winter | ||
3013106 | Advanced Integration and Packaging | 2 | 32 | Summer | ||
3013107 | Electromagnetic Compatibility and Protection in Modern Communication System | 2 | 32 | Summer | ||
3013108 | Hybrid Multi-physics and Parallel Computation | 2 | 32 | Summer | ||
Select one mathematical course | ||||||
Select 1 to 2 master or PhD courses related to the research area |