Degree:Master of Optical Science and Engineering Graduate Program in Optical Engineering
Protect life and lives by taking advantage of advanced optical engineering, and support Industry.
Acquire advanced knowledge and skills of optics and contribute to innovation in the next generation by understanding and controlling various physical phenomenon the optics generate. Acquire creative practical ability and technical capability related to the optics, as well as fundamental technology for application field from an engineering perspective the optics generate.
Three Educational Policies
You can check the details of the Three Educational Policies in PDF.
Education and research of this program
The skills and Education and research of this programOur target in education
Human resources who acquire advanced knowledge and engineering of optical engineering equipped with the ability as a practical engineer/researcher and can contribute to the creation of a sustainable and prosperous community by leading the creation and development of wide range of global optical engineering.
Skills to be developed
- Knowledge and skills related to advanced optical engineering necessary to contribute to the development of industry while solving various issues with optical engineering in the 21st century from a global perspective.
- Practical ability to apply basic knowledge/engineering learned from the course which serves as a foundation to advanced optical engineering in an engineering manner.
Future path
Optical/precision instrument, Medical instrument, Precision machining, Semiconductor related, Electric electronic devices related, Automobile and on‐board equipment, Optical communication, Image information related, continue to graduate school (doctor’s course), etc.
Program Specialized Course
You can check the details of the Program Specialized Course in PDF.
| Course name | Semester | Credits | ||
|---|---|---|---|---|
| Fundamental OpticsⅡ | Semester | A | Credits | 1 |
| Wave-optical EngineeringⅠ | Semester | A | Credits | 1 |
| Wave-optical EngineeringⅡ | Semester | A | Credits | 1 |
| Course name | Semester | Credits | ||
|---|---|---|---|---|
| Optical Engineering for Life Science | Semester | A?D | Credits | 2 |
| Optical Image Processing | Semester | B?E | Credits | 2 |
| Optical metrology | Semester | A?D | Credits | 2 |
| Optical Waveguide Devices | Semester | B?E | Credits | 2 |
| Information Optics | Semester | B?E | Credits | 2 |
| Optical Design | Semester | B?E | Credits | 2 |
| Mathematical Physics in Optics | Semester | A?D | Credits | 2 |
| Kansei Information Processing | Semester | A?D | Credits | 2 |
| Advanced Photonics | Semester | A?D | Credits | 2 |
| Principles on Optical Systems | Semester | B?E | Credits | 2 |
| Visualization and Image Processing | Semester | B?E | Credits | 2 |
| Image Processing | Semester | B?E | Credits | 2 |
| Display Engineering | Semester | B?E | Credits | 2 |
| Advanced Seminar in Optical Science & Engineering | Semester | F | Credits | 4 |
| Advanced Research for Thesis in Optical Science & Engineering | Semester | F | Credits | 6 |
※ Meaning list of the words in “Semester” fieldMeaning list of the words in “Semester” field
Faculty Member
ProfessorOHTANI, Yukitoshi
- Education specialty and research field
- Polarization Engineering, Optical metrology, Optomechatronics
- Research interest
- Research on polarization, spectroscopic imaging, optional-mechatronics
- SDGs
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ProfessorSATO, Mie
- Education specialty and research field
- Human Informatics, Kansei Engineering
- Research interest
- Image processing, Kansei information processing, and human-computer interaction
- SDGs
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ProfessorSUGIHARA, Okihiro
- Education specialty and research field
- Optical Communication Engineering, Polymer Photonics
- Research interest
- High speed communication using optical fiber / optical waveguide, interaction between light and polymer
- SDGs
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