Graduates of the base class can study for a master's degree in scientific research institutes and key universities of the Ministry of Education through exemption or examination. You can also engage in research and development, technical consultation, management and teaching in large and medium-sized state-owned enterprises, foreign-funded enterprises, private enterprises and universities. Physics major has a strong faculty, advanced equipment and strong academic atmosphere, and has a tradition of teaching and scientific research for nearly a hundred years. This major has gathered a large number of physicists and famous scholars of the older generation. In recent years, a group of young scholars who are active in the front line of scientific research have been introduced, adding new vitality to the faculty of physics department.
This major trains physics talents with wide caliber and thick foundation: senior professionals who master the basic theories and methods of physics, have good mathematical foundation and basic experimental skills, master the basic application knowledge and basic experimental skills of electronic technology, computer technology and optical fiber communication technology, and can engage in scientific research, technology development and application in related high-tech fields.
The main professional courses are: advanced mathematics, general physics, mathematical physics methods, theoretical mechanics, thermodynamics and statistical physics, electrodynamics, quantum mechanics, solid physics, electronic circuit, microcomputer principle, computational physics, general physics experiment, modern physics experiment, electronic circuit experiment, computer basic experiment, microcomputer principle experiment, professional experiment and so on.
Physics graduates can engage in scientific research, teaching, technology development and management in the fields of physics, post and telecommunications, aerospace, energy development, computer technology and application, photoelectric technology, automatic control and so on. The purpose of this class is to cultivate high-level compound talents in the field of advanced science and engineering who have a high level of French and meet the needs of global (especially European) scientific and technological development. In addition to systematically mastering the basic knowledge of physics or materials science and strong experimental skills, students also need to be proficient in French and English, especially the development trend of international related disciplines.
The students in this class selected 30 freshmen of science and engineering from Wuhan University in 2006. Undergraduate and graduate students continue to study for 6 years, including undergraduate in the first four years and master in the second two years. Those who have studied in China for the first two years and passed the French proficiency test organized by the French side will be sent to a science college or an engineering college in Lyon, France, and continue their studies in the second two years after their undergraduate studies and the second two years after their masters. During the period of students studying in France, the French side is free of tuition. Living expenses, travel expenses and expenses for going abroad shall be borne by the students. Wuhan University recognizes the courses and credits it has studied in France in the last two years. Upon completion of undergraduate study, you can get a bachelor's degree from Wuhan University and a bachelor's degree from Wuhan University and a university in Lyon, France. Those who pass the master's degree can get a master's degree in science or an engineer's diploma in Lyon, France.
The main professional courses are: advanced mathematics, general physics, mathematical physics methods, theoretical mechanics, thermodynamics and statistical physics, electrodynamics, quantum mechanics, solid physics, electronic circuit, microcomputer principle, computational physics, general physics experiment, modern physics experiment, electronic circuit experiment, computer basic experiment, microcomputer principle experiment, professional experiment and so on.
Graduates can engage in scientific research, teaching, technology development and management in the fields of physics, post and telecommunications, aerospace, energy development, computer technology and application, photoelectric technology, medical care, automatic control and so on. Materials science is a multidisciplinary discipline, and it is also one of the four frontier disciplines in 2 1 century. Materials Science and Technology (Experimental Class) is a new major established to adapt to the development of this frontier discipline. Based on the basic theory of physics and chemistry and modern science and technology, it cultivates compound talents with thick foundation and wide caliber through the study and experimental training of physics, chemistry, materials and machinery. Compared with traditional materials, students in this major should not only have professional knowledge of materials science, but also have solid and comprehensive basic knowledge of physics, chemistry and engineering technology to adapt to the rapid development of national scientific and technological innovation and high-tech new materials.
In addition to the basic courses of physics and chemistry, the specialized courses mainly include: solid physics, material physics, foundation of material physics preparation, engineering materials science, modern solid analysis technology, material properties, professional direction experiments, material science progress, new functional materials, material corrosion and protection, etc.
Excellent students can directly study for master's or master's degrees in materials, physics, chemistry and other related majors; You can also engage in theoretical research, application development, management and teaching of new materials in the field of materials science and engineering in high-tech companies of new materials, R&D institutions of large enterprises, national scientific research institutes or universities. This major trains innovative professionals who meet the actual needs of China's IT industry, have a solid foundation in mathematics and physics, master a wide range of professional basic knowledge in physical electronics, microelectronics, optoelectronics, nanoelectronics, circuit systems and other fields, and master experimental skills skillfully. Students will receive systematic training in information electronic technology and computer technology, and master the research, development and design skills of new technologies and new processes for electronic materials, electronic devices and electronic systems.
The main professional courses of microelectronics include: semiconductor physics, semiconductor device physics, integrated circuit design foundation, integrated circuit principle, electronic design automation (EDA technology), single chip microcomputer and embedded system, modern electronic materials, etc. The main experimental practice courses are: EDA technology experiment, MCU and ARM experiment, FPGA experiment, microelectronics technology (process) practice, course design, microelectronics comprehensive experiment (microelectronic circuit design and simulation, microelectronic system design, chip layout design and parameter extraction, microelectronic device manufacturing and testing, etc. ).
Graduates can engage in research and development of various semiconductor materials, semiconductor devices, integrated circuits and electronic systems in microelectronic design companies, integrated circuit processing enterprises, microelectronic packaging and testing companies, post and telecommunications microelectronics and electronic system research departments, electronic engineering-related research institutes and universities.
The main professional courses in the direction of circuit and system are: communication principle, digital signal processing, data structure, high-frequency electronic circuit, electronic design automation (EDA technology), single chip microcomputer and embedded system, Matlab application, etc. The main experimental and practical courses are: EDA technology experiment, MCU and ARM experiment, DSP experiment, course design, comprehensive experiment of circuit system (circuit system design, DSP and image processing, network and communication protocol practice, application of Matlab in circuit design, etc. ).
Graduates can engage in scientific research, technology development and management in circuit design, electronic system, industrial control, signal processing and other aspects in scientific research units, universities and companies such as national defense, aerospace, posts and telecommunications, electric power and electricity. Can also be engaged in electronic technology, automatic control, sensing technology, computer application technology and other related work in medical, financial, government and other departments.
The main professional courses in the direction of physical electronics include: laser principle and technology, photoelectric technology, infrared technology, sensor principle and application, electronic design automation (EDA technology), single chip microcomputer and embedded system, new functional materials, modern electronic materials and so on. The main experimental courses include: EDA technology experiment, MCU and ARM experiment, sensor experiment, course design, photoelectric comprehensive experiment (preparation and testing of photoelectric functional materials, performance analysis of photoelectric devices, analysis of optical, electrical and magnetic characteristics of nano-electronic materials, sensor signal acquisition and processing, etc. ).
Graduates can engage in the research and development of various photoelectric functional materials, optical communication components and photoelectric subsystems in scientific research units, universities and companies in the fields of posts and telecommunications, optical communication, electronic materials, nanotechnology and space science. Can also be engaged in sensor technology, photoelectric technology, nanotechnology and application-related technology development and management.