For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| PHY5201 | Introduction and application of advanced vacuum science and technology | 3 | 6 | Major | Master/Doctor | 1-4 | Korean | Yes | |
| Due to the advancement of science and technology, we are living in the era of the fourth industrial revolution, where various advanced technologies are being integrated into industries, society, and the economy. In order to popularize advanced technologies, it is necessary to produce basic hardware. Accordingly, the basic industries, such as semiconductors and quantum technology for hardware production, are rapidly developing, and research on novel hardware is constantly being conducted in research institutes and universities. The purpose of this class is to understand vacuums and various devices utilizing vacuums in research institutes and industries. We will cover basic concepts such as the definition of a vacuum and how a vacuum can be created, as well as applications such as how to actually measure a vacuum and what methods are used to create and utilize a vacuum. This course will help you understand vacuum equipment and how it is used in various industries and laboratories. Discussion may be conducted in Korean. | |||||||||
| PHY6001 | Research I | 3 | 6 | Major | Doctor | 1-4 | Korean | Yes | |
| This is an individual study course for Ph. D. students who have finished the course requirements. This course is designed for giving credits to the students for their research works. | |||||||||
| PHY6002 | Research II | 3 | 6 | Major | Doctor | 1-4 | Korean | Yes | |
| This is an individual study course for Ph. D. students who have finished the course requirements. This course is designed for giving credits to the students for their research works. | |||||||||
| PHY6003 | Research III | 3 | 6 | Major | Doctor | 1-4 | - | No | |
| This is an individual study course for Ph. D. students who have finished the course requirements. This course is designed for giving credits to the students for their research works and for writing their dissertation. | |||||||||
| PHY7001 | Classical Mechanics | 3 | 6 | Major | Bachelor/Master/Doctor | English | Yes | ||
| This lesson considers the advanced course of Newtonian mechanics which describes the macroscopic objects. Main subjects are Newton's laws, dynamics of Lagrangian and Hamiltonian, Accelerated coordinate systems, scattering, rigid bodies, oscillations, perturbation theory and the classical field theory. | |||||||||
| PHY7002 | Quantum Mechanics | 3 | 6 | Major | Bachelor/Master/Doctor | English | Yes | ||
| This subject studies mathematical introduction, the postulates, simple problems in one dimension, the classical limit, the harmonic oscillator, the Heisenberg uncertainty principle, rotational invariance and angular momentum, the hydrogen atom, spin, the addition of angular momenta. | |||||||||
| PHY7003 | Electromagnetism | 3 | 6 | Major | Bachelor/Master/Doctor | English | Yes | ||
| In electromagnetism 1, students learn mainly about static electromagnetism, which contains basics of electrostatics, electrostatics with boundary conditions, electrostatic in matters, basics of magnetostatics, magnetostatics with boundary conditions, magnetostatics in matters, and Maxwell's equations. | |||||||||
| PHY7004 | Statistical Mechanics | 3 | 6 | Major | Bachelor/Master/Doctor | English | Yes | ||
| Statistical mechanics deals thermodynamics and statistical physics at the level of graduate course. This lesson considers the following subjects: the laws of thermodynamics, transport phenomena, classical statistical mechanics, canonical ensemble, quantum statistical mechanics, fermion systems, boson systems, superfluidity, the Ising model, and phase transition. | |||||||||
| PHY7005 | Special Topics in Physics Ⅰ | 3 | 6 | Major | Bachelor/Master/Doctor |
3-4
1-4 |
Korean | Yes | |
| Topics selected in newly developed physical theories and experiments. | |||||||||
| PHY7006 | Special Topics in Physics Ⅱ | 3 | 6 | Major | Bachelor/Master/Doctor |
3-4
1-4 |
- | No | |
| Topics selected in newly developed physical theories and experiments. | |||||||||
| PHY7007 | Frontiers in Physics | 3 | 6 | Major | Bachelor/Master/Doctor |
3-4
1-4 |
- | No | |
| New Science and Technology have been developed in a tremendously rapid speed, and several fields are opened in a revolutionary fashion. All the contents of the modern physics cannot be taught in a one-semester course. General, basic materials are taught in "Modern Physics" course, and detailed developments are dealt with in this "Frontier Topics in Physics" course. | |||||||||
| PHY7008 | Surface Physics | 3 | 6 | Major | Bachelor/Master/Doctor |
3-4
1-4 |
- | No | |
| These days, new materials/structures continuously emerge and novel devices based on these materials/structures have extensively developed alongside the innovative advances in science and technology. Therefore, there is a growing importance of studies that understand the physical properties of the materials/structures and characterize the device performances based on the functionality of the materials/structures. In this course, we will draw attention to the relationship between the materials/structures and physical phenomena and learn to analyze those from a physical perspective. In addition, we will study the operational mechanism of the analytical instruments which will aid strongly in understanding various materials/structures and the functional device properties. Having the fundamental knowledge of Quantum Mechanics, Electromagnetism and Solid State Physics will be of use to comprehending this course. The course provides: 1) Understanding the crystal structures, especially, the concept of surface and interface of materials/structures, 2) the principle of each analysis instrument to characterize the electrical, optical, magnetic, thermal, mechanical properties. 3) Principles and analytical techniques such as electron microscopes, atom force microscopes, X-ray diffraction, etc., and 4) spectroscopic methods for characterizing the electronic structures and the chemical property of materials/structures will be explored as well. | |||||||||
| PHY7009 | Understanding the biggest unsolved problems in physics | 3 | 6 | Major | Bachelor/Master/Doctor | 3-5 | - | No | |
| Standard physics course mostly teaches students by showing them how to solve known problems. However, the frontline of physics research is formed only by facing unsolved problems. We believe that students can learn much more from the understanding of what are unsolved problems in physics and trying to solve them. We aim to motivate students by challenging them to face important but unsolved problems. | |||||||||
| PHY7010 | Understanding of social problems through physics approach | 3 | 6 | Major | Bachelor/Master/Doctor | 3-4 | - | No | |
| Big data in the real world is now playing important roles in understading and solution of social problems. In this course, we provide students experiences of applying physics approach and machine learning technique to understand the real world problems. | |||||||||
| PHY7011 | Advanced Physics Experimental Design and Analysis | 3 | 6 | Major | Bachelor/Master/Doctor | 3-4 | - | No | |
| This course is planned for those interested in the design, conduct, and analysis of advaned experiments in physical science. The course will examine how to design experiments, carry them out, and analyze the data they yield. Various designs are discussed and their respective differences, advantages, and disadvantages are noted. This course also provides the capstone experience to the core courses, bringing the knowledge gained in different courses together and making the connection between theoretical knowledge and the experimental foundations of this knowledge. Activities outside the classroom, such as independent research or study, allow students to further develop their knowledge and understanding. | |||||||||