Physics (normal) : 4 years
training physics teachers, so that students have good scientific literacy, physics teaching theory and teaching skills.
To cultivate students with basic theoretical knowledge of physics and the ability to study independently and solve problems independently, strengthen the training and cultivation of basic knowledge of mathematics and science, experimental skills and scientific research ability, so that students can be qualified for the development of modern education for physics teaching and research, as well as high and middle school teaching and teaching needs.
Teaching physics and science at all levels and in all kinds of schools;Engaged in scientific research, application research and management in physics-related research institutions, enterprises and public institutions. Interested in physics students can further studying theoretical physics, condensed matter physics, optics, particle physics and nuclear physics, astrophysics, physics curriculum and teaching theory as well as other interdisciplinary (such as financial physics, biological physics, chemical physics, computational physics and materials physics) and other professional master's and doctoral degrees.
Optoelectronic Information Science and Engineering (non-normal) : 4 years
Major courses take information as the main line, and light and electricity as the two main branches, mainly learning the basic knowledge of applied optics, optoelectronics and related electronic information science, computer science and other fields.To systematically train students' basic knowledge and skills in the fields of modern photoelectric information acquisition, optical communication, photoelectric information processing, optical storage, optical display and photoelectric information application, and master the design and manufacturing methods of photoelectric products in the field of photoelectric information. To cultivate senior specialized talents who are engaged in scientific research, product design, production technology or management in optoelectronic information industry and related fields.
The 20th century is the century of electricity, and the 21st century is the century of photoelectricity (photons). The photoelectric industry has become the largest industry in today's information society. For this reason, the United Nations General Assembly has declared 2015 as International Light Year. The graduates of this major mainly face the photoelectric industry, which is the most rapidly developing sunrise industry at present, and the talent demand is in short supply. In the field of photoelectric information industry, including in optical fiber communication, photoelectric technology, applied optics, photoelectric display and storage, mechanical and optical instrument department, engaged in the design, production, development, teaching, scientific research and technology management work, can also be used in colleges and universities, scientific research units, the national defense war industry, biological, medical, environmental monitoring departments engaged in teaching and scientific research work. Zhejiang province is the largest domestic photoelectric information industry, is not only the hot spots of international optoelectronic industry investment, is also the area where the Chinese optoelectronic industry booming, and now the province in hangzhou, ningbo, wenzhou, shaoxing and other places have built 10 different characteristics, different levels of photoelectric information industry characteristic park, more than 1000 have photoelectric related enterprises.
This professional talent is scarce, the contradiction between supply and demand is sharp, the employment prospect is promising.
Materials Science and Engineering (non-normal) : 4 years
Feature: in the thick foundation, broad caliber, heavy practice, strong ability, innovation, internationalization, under the guidance of the training mode of training to meet the needs of social development, material physics related basic knowledge and basic skills, has the good professional quality and solid professional foundation, can in the field of materials science and engineering and related research, teaching, science and technology development and related management work of innovative, interdisciplinary and international senior professionals. It focuses on cultivating application-innovative international talents with solid theoretical knowledge and innovative practical ability in semiconductor and solar cell materials, magnetic materials, nanomaterials, information functional materials, etc.
Employment Prospects: Graduates of this major can continue to study for master's degree in this major and related majors. The proportion of graduate students in the past few years is about 40%. Graduates can be engaged in research and development and technical work in photoelectromagnetic functional materials and devices, solar cells, semiconductor lighting, microelectronics and other materials related industries. They can also be engaged in scientific research, design, production management, engineering technology application and teaching in scientific research institutes and enterprises.