1. Basic physics: including basic physics knowledge such as mechanics, heat, electromagnetism, optics and quantum mechanics. Students will learn the principles, mathematical descriptions and experimental methods of these basic knowledge, laying a solid foundation for subsequent professional courses.
2. Experimental technology: Applied physics majors focus on cultivating students' experimental skills and experimental design ability. Students will learn to use all kinds of physical experimental instruments and equipment, conduct experimental operation and data processing, and master experimental error analysis and interpretation of experimental results.
3. Materials Science: Students will learn the physical properties, structural characteristics and performance control methods of materials. Including crystal structure, electronic structure, mechanical properties and thermal properties of materials, as well as material characterization and testing technology.
4. Optoelectronics: Students will learn the basic theory and applied technology of optoelectronics. Including the principle of light emission, propagation and detection, the design and preparation of optoelectronic devices, and the application of optoelectronic technology in communication, display, energy and other fields.
5. Nano-science and technology: Students will learn nano-scale physical phenomena and the characteristics of nano-materials. Including the synthesis, characterization and application of nano-materials, the study of nano-scale optical, electrical and magnetic properties, and the application of nano-technology in biomedicine, energy and environment.
6. Computational Physics: Students will learn the numerical simulation and calculation methods of physics. Including molecular dynamics simulation, finite element analysis, Monte Carlo simulation and other calculation methods, as well as the ability to solve physical problems and analyze data with computers.