The major of materials physics cultivates advanced engineering and technical talents who meet the needs of social development, have good humanities and social science literacy, social responsibility and professional ethics, have solid professional knowledge and engineering skills in materials physics, have good learning ability, innovative awareness, safety awareness, international vision and teamwork spirit, and can engage in material structure and performance analysis, scientific research, engineering design, technology development, production and operation and management in photoelectric materials and devices and other related fields.
Theme introduction
1, main disciplines: physics, materials science.
2. Main courses: general physics, theoretical physics, solid state physics, material physics, etc.
3. Main courses: general physics (force, heat, electricity, light, physics), theoretical physics (theoretical mechanics, electrodynamics, thermodynamics and statistical physics, quantum mechanics), material science foundation, material physics, solid state physics, material microstructure and test analysis methods, computational materials science or computational physics.
4. Main practical teaching links: including production practice and graduation thesis. , usually arranged in 10-20 weeks.
5. Similar majors: applied physics, materials science and engineering, polymer materials and engineering.