Courses
Completion requirements
Master's Program
To obtain a master's degree, the student must:
- earn a minimum of 30 academic credits
- complete a special research
- submit and successfully defend a master's thesis
- pass the final examination of the program
Doctoral Program
To obtain a doctoral degree, the student must:
- earn a minimum of 6 academic credits
- complete a special research
- submit and successfully defend a doctral thesis
- pass the final examination of the program
Course list
Master's Program
- Solid State Physics
- Surface and Interface Science
- Topics in Quantum Simulations I
- Topics in Quantum Simulations II
- Optical Spectroscopy and Nano-imaging
- Image and Signal Processing
- Tutorials on Computational Nano-materials Design I
- Tutorials on Computational Nano-materials Design II
- Solid State Theory I
- Molecular Reaction Dynamics (I)
- Special Topics of Extremely High Precision Machining
- Advanced Computational Mechanics
- Advanced Theoretical Solid Mechanics
- Atomically Controlled Surface Processing
- Ultrasonic Engineering
- Applied and Engineering Physics Seminar I
- Applied and Engineering Physics Seminar II
- Photonic Engineering
- Engineering for Molecular Measurement and Control
- Science and Engineering of Physical Property Analysis
Doctoral Program
- Special Topics in Solid State Physics
- Computational Physics
- Advanced Surface Physics
- Tutorials on Computational Nano-materials Design III
- Tutorials on Computational Nano-materials Design IV
- Overview of Ultraprecision Machining
- Atomically Controlled Materials Processing
- Nanospectroscopy
- Special Topics in Quantum Physics
- Applied and Engineering Physics Seminar for Advanced Researches I
- Applied and Engineering Physics Seminar for Advanced Researches II
- Selected Topics in Functional Materials
- Theory of Nanomanufacturing Science
- Quantum Measurements
- Nanometric Optical Sensing
- Advanced Nanomaterial Science
- Molecular Photonics
- Material Physics, Adv.
