Objectives:

This program is established to cultivate high-level innovative talents in the fields of Physics, New Materials, Information Science and other fields to engage in scientific research, high-tech development, teaching and scientific management in colleges and universities. Students should have good moral character, solid foundation, comprehensive quality, physical and mental health, international vision and strong innovation ability, master solid and broad basic theories, systematic and in-depth expertise, understand corresponding experimental methods and technologies in physics theory and its combination with applied technology, and have the ability to conduct scientific research independently and achieve innovative results.

Curriculum:

Core courses: Advanced Optics and Photonics, Advanced Optical Spectroscopy, Statistical Optics, Solid State Optical Properties, Materials Physics, Physical Basis of Material Properties, Condensed Matter Physics Theory, Mathematical Modeling, Advanced Mathematical Methods, Computational Crystallography,Diffraction Physics and High-resolution Electron Microscopy.

Featured courses: Tunable Laser Principles and Technology, Optoelectronic Materials and Devices, Modern Optical Design, Nonlinear Optics, Optical Information Processing, Optoelectronics, Nano Optics and Technology, Material Creep Behavior, Solid Material Structure Fundamentals, Experiment Methods of Solid-state Physics, Space Group Theory in Crystals, Electron Microscopic Analysis Methods for Solid Microstructures, Electron Diffraction and Diffraction Contrast Analysis, Cosmology, Topological Field Theory, Modern Material Analysis Experiments, Frontier Topics in Physics.

Career:Graduates of this program can start a career in educational institutions, research institutes, enterprises and public institutions.

Physics (Master of Science)

Objective:This program is established to cultivate high-level applied talents tobeengagedin scientific research, high-tech developing and supporting work in the fields of Theoretical Physics, Solid Microstructure and Performance, New Material Physics and Applications, Strong-field and Ultrafast Photonics, Micro-nano Optics and Information Technology, New Materials, Information Science and Technology. The talents should be equipped with excellent moral characters, rigorous and pragmatic academic style, good physical and mental health, strong practical ability, innovative spirit,and creative ability, master the solid basic theory and systematic expertise of the physics discipline, and have the ability to conduct scientific research and specialized technical work independently.

Curriculum:

Core courses: Advanced Optics and Photonics, Advanced Optical Spectroscopy, Statistical Optics, Physical Basis for Material Performance, Materials Physics, Introduction to Laser Science and Engineering, Advanced Solid State Physics, Computational Crystallography, Quantum Statistical Physics, Advanced Quantum Mechanics, Diffraction Physics and High-resolution Electron Microscopy.

Featured courses:Material Creep Behavior, Modern Optical Design, Gauge Field Theory, Quantum Field Theory, Group Theory, Experiment Methods of Solid-state Physics,Nonlinear Optics, Optical Information Processing, Principles for Optical Fiber Communication, Optoelectronics, Nano Optics and Technology,Topological Field Theory, Electron Diffraction and Diffraction Contrast Analysis,Modern Materials Analysis Experiments, Advanced Laser Manufacturing Experiments, Fundamentals for Solid Material Structures,Space Group Theory in Crystals, Electron Microanalysis Methods for Solid Microstructures.

Career:Graduates of this program can start a career in public management, educational institutions, research institutes, and enterprise.