The graduates of this specialty are mainly oriented to today's employment opportunities, wide, good optoelectronics industry. Engaged in optoelectronic products, devices and flat-panel displays, manufacturing, assembly, debugging, maintenance, testing, production management, after-sales service, product agents and sales and other aspects of work. Mainly for flat panel display and optoelectronic device production enterprises and business units, engaged in flat panel display field related manufacturing, assembly, debugging, testing, maintenance, production and quality management, technical services and other work.
Engaged in the industry:
After graduation, they mainly work in the industry of electronic technology, new energy, instrumentation, etc., which are roughly as follows:
1 Electronic technology/semiconductor/integrated circuits
2 New Energy
3 Instrumentation/Industrial Automation
4 Communication/telecommunication/network equipment
5 Trade/ Import and export
6 Professional services (consulting, human resources, accounting)
7 Computer software
8 Other industries
Positions:
After graduation, mainly engaged in the work of optical engineers, process engineers, research and development engineers and other jobs, roughly as follows:
1 Optical Engineer
2 Process Engineer <
3 R&D Engineer
4 Sales Engineer
5 Technical Support Engineer
6 Optical Engineer
7 Electronics Engineer
8 Optical Design Engineer
Working Cities:
After graduation, there are many more employment opportunities in Shenzhen, Beijing, Wuhan and other cities, roughly as follows:
1 Shenzhen
2 Beijing
3 Wuhan
4 Shanghai
5 Suzhou
6 Hangzhou
7 Nanjing
8 Guangzhou
3, the direction of the optical storage professional employment prospects
Fiber optics is with the development of optical communications and the continuous development of various structures and types of of optical fiber supports the development of the optical communications industry. At present, the amount of information transmitted by a single optical fiber has reached trillions of bits. Optical fiber as a medium for optical communication information transmission, its dispersion and loss will directly affect the transmission capacity of the communication system and the relay distance, and the conventional single-mode optical fiber can not meet the requirements of the new generation of communication technology, so the fiber optic technology has a new development.
So far, the optical fiber has gone through a short wavelength to long wavelength, from multi-mode to single-mode fiber and special fiber development process, and developed a dispersion-shifted fiber, non-zero dispersion fiber and dispersion compensation fiber. Feng Songlin, director of the Institute of Semiconductor Research of the Chinese Academy of Sciences, researcher believes that if the microelectronics technology to promote the computer, the Internet, fiber optic communications and other information technology represented by the high-speed development of information technology, changing people's way of life, so that the knowledge-based economy is beginning to see the beginning of the end, then with the development of information technology, high-capacity fiber-optic communication network construction, optoelectronics technology will play an increasingly important role. He said that optoelectronic devices and components are widely used in long-distance high-capacity fiber-optic communications, optical storage, optical display, optical interconnection, optical information processing, laser processing, laser medical and military weaponry, and is expected to play an important role in the future of optical computing.