Graduate Institute Of Applied Physics( Master Program )
Educational Objectives
  1. To cultivate leaders in the fields of science and technology and to promote the perpetual development in the Nation's industries
  2. To train social and industrial leaders in engineering and to promote the perpetual development for the Nation and mankind.
Core Capabilities
  1. Cultivation of physics related knowledge
  2. Cultivation of related knowledge in applied physics
  3. Gain familiarity with experimental techniques in applied physics
  4. Establishment of the linkage of semiconductor and electro-optical industries to applied physics
  5. Applications in applied physics
  6. Providing practical training in applied physics
Table of Core Capabilities and Curriculum Planning
Curriculum Planning
Curriculum Planning Map
Course List
Course TypeCourse Title (Recommended Year of Study)
Core courses Quantum Mechanics (Ⅰ)(1) Introduction to Solid State Physics(12) Superconducting Physics(12) Seminar in Applied Physics (Ⅰ)(1) Seminar in Applied Physics (Ⅱ)(1) Introduction to Spintronics(12) Introduction to Semiconductor(12)
Science and technology in semiconductors Advanced Experimental Physics (Ⅰ)(12) Classical Electrodynamics (Ⅰ)(12) Quantum Mechanics (Ⅰ)(1) Statistical Physics (Ⅰ)(12) Introduction to Solid State Physics(12) Introduction to Semiconductor(12) Special Topics in Contemporary Applied Physics(12)
Science and technology in superconductors and magnetic materials Advanced Experimental Physics (Ⅰ)(12) Classical Electrodynamics (Ⅰ)(12) Quantum Mechanics (Ⅰ)(1) Statistical Physics (Ⅰ)(12) Introduction to Solid State Physics(12) Superconducting Physics(12) Introduction to Spintronics(12)
Nano- and electro-optical science and technology Advanced Experimental Physics (Ⅰ)(12) Classical Electrodynamics (Ⅰ)(12) Quantum Mechanics (Ⅰ)(1) Statistical Physics (Ⅰ)(12) Introduction to Solid State Physics(12) Introduction of Nanobio Science and Technology(12) Introduction to Semiconductor(12)
Electro-mechanical science and technology Advanced Experimental Physics (Ⅰ)(12) Classical Electrodynamics (Ⅰ)(12) Quantum Mechanics (Ⅰ)(1) Statistical Physics (Ⅰ)(12) Introduction to Solid State Physics(12) Introduction to Optoelectronics(12)
Science and technology in material science Advanced Experimental Physics (Ⅰ)(12) Quantum Mechanics (Ⅰ)(1) Statistical Physics (Ⅰ)(12) Introduction to Solid State Physics(12) Introduction to Semiconductor(12)
Biomedical engineering Advanced Experimental Physics (Ⅰ)(12) Classical Electrodynamics (Ⅰ)(12) Statistical Physics (Ⅰ)(12) Introduction of Nanobio Science and Technology(12)
Multidisciplinary Classical Mechanics (Ⅰ)(12) Advanced Topical Research(12) Advanced Topical Research A(12) Advanced Topical Research B(12) Advanced Topical Research C(12) Topical Research(12) Seminar in Applied Physics (Ⅰ)(1) Seminar in Applied Physics (Ⅱ)(1) Special Topics in Contemporary Applied Physics(12)
Others Classical Mechanics (Ⅰ)(12) Seminar in Applied Physics (Ⅰ)(1) Seminar in Applied Physics (Ⅱ)(1)
Theoretical Physics
Experimental Physics
Future Map
Future Map