Owing to its high standards, advanced facilities, professional teachers and a supportive learning environment, the School of Physics and Optoelectronic Engineering has a well-recognized reputation for academic excellence. Our approach to practice has been achieved by the development of teaching laboratories of the four departments.
Our undergraduate programs offer both breadth and depth, and are strongly approved of by the University's excellent research portfolio. Junior students can deeply penetrate into subdivided areas, and all the students have the opportunity to take a major project in the last year of their study.
With opportunities of spending some time in corporations, study abroad, and shift between different majors, most of our students graduate with the knowledge and skills sought by employers.
Training target: Cultivate the students that are adapt to the society need, and of moral, intellectual and physical development, master the fundamental theory, professional knowledge and practicing skill of computer and modern communication system, can engage in the communication departments, enterprises and institutions.
The graduates of communication engineering should advocate the basic line and guidelines of the party, love motherland, be discipline and good conduct, with good physical and mental health, have a good work ethic and entrepreneurial spirit, work for the development of China's economic construction and social services positively. Also, the student should have scientific worldview, masterscientific method and the basic theory and professional knowledge of communication, be skill in English, communication and team cooperation.
Main courses: Mathematics, engineering mathematics, college physics, College English, the basic theories of circuit analysis, modern communication theory, electromagnetic fields, analog electronics, digital electronics, computer theory and interface technology, high-frequency electronic circuits, digital program-controlled switching technology, signal and system, digital signal processing, optical fiber communications, mobile communications, satellite communications, microwave technology, antenna and wave propagation theory and coding, C programming Language, Java communications program design, data communications and computer networks, network databases, digital image processing, communications network, the basis of NGN technology and applications, embedded systems design, automatic control, DSP principles and applications.
Main employment direction: graduates’ main units include: communications sector, research institutes, military units, schools, political and legal departments, the executive authorities, financial institutions, national or private high-tech companies, foreign enterprise and international joint ventures. The main work include: electronic communications, communications equipment, communications systems, network and communications, the research, design, development, teaching, installation, production and administrative management of electronic communications technologies and electronics and communications engineering.
Training target: The professional aim of this specialty is training the students that can use IT and theoretical to access, transmit, process, use the information, and analysis, design, manage, main tenant, integrate, and optimize the information systems using their knowledge and skills. The graduates can be engaged in the design of information systems in various sectors of the national economy, integration, implementation, management and maintenance of advanced engineering and technical and scientific research work of moral, intellectual and physical development.
Main courses: Circuits and systems, digital circuits, analog circuits, database theory, micro-computer theory, discrete mathematics, operating systems, signals and systems, data communications and computer networks, compiler theory, data structures, object-oriented program design, calculation methods and large database systems, applications, JAVA programming experiment, the C # programming Visual Studio. NET programming experiments, embedded systems theory and applications, Principles and Applications experiment, Principles and Applications, computer network Engineering.
The course architecture consists of general education courses, compulsory subjects, elective subjects, and elective professional courses.
Main employment direction: Government agencies, information management and planning departments of the various types of enterprises, high-tech companies, information service organizations.
Electronic information engineering
Training target: The professional aim of this specialty is training the students that have the basic knowledge and skillful professional ability, self knowledge updating capacity, creative ability, scientific research ability and the ability to adapt to society, master a certain fundamental meteorological knowledge. Cultivate the talents that can design various types of electronic engineering, produce higher engineering and have the management ability. The graduates can engage in research, design and application development in electronic equipment, meteorological electronic instruments and equipment, electronic information system.
Main courses: Mathematics, engineering mathematics, University Physics, College English, the basis of circuit analysis, analog circuits, digital circuits, high-frequency circuits, signals and systems, C language, computer theory and applications, digital signal processing, communication theory, electromagnetic fields and electromagnetic waves, automatic control theory, Principles and Applications, Embedded Systems and applications, Electronic measurement Technology, electromagnetic compatibility and other related courses. Meteorological characteristics of courses: Introduction to atmospheric science, modern mine technology base, Introduction to Public Weather Services, weather instruments, atmospheric sounding learn.
Main employment direction: Research, design, development, teaching, installation, production and administrative management in institutes, military units, educational institutions, administrative agencies, financial institutions, all kinds of companies and all types of institutions about electronic information, electronic equipment, electronic systems, electronics and electronic engineering.
Electronic Science & Technology
Training target: The professional training aim is to cultivate the talents that can adapt to the all-round development in the 21st century socialist modernization and physically needs, be with a high ideological and moral and cultural qualities of accomplishment, professionalism and sense of social responsibility, have a solid foundation knowledge of natural science and broad expertise, have the innovative and engineering practice ability, track to master new theories, knowledge, technologies in the field, have the ability to engage in research, design, development, application and management in the field of electronic science and technology.
Main courses: Electronic circuits, signal and system, C language programming, Microcomputer Principle and Interface Technology, solid state physics and semiconductor physics, optical engineering, photonics principles, the basis of microelectronic devices, microelectronics basic experiment, the sensor principle, Microcontroller Theory and Applications, optoelectronics system design. The course architecture consists of general education courses, compulsory subjects, elective subjects, and elective professional courses. Professional characteristics courses: professional specialty courses: Introduction to atmospheric optics, radar principle, automatic weather station maintenance, atmospheric radiation, and laser detection.
Main employment direction: work in institutes, educational institutions, electronic communications, and equipment manufacturing enterprises or public institutions about technology, research, teaching or administration.
• BSc Physics
• BSc Applied Physics
• BSc Materials Physics
• BSc Optical Information Science and Technology