The Optoelectronic Information and Science program is a comprehensive discipline that covers the fields of optics, electronic information and computer science. Graduates usually have employment opportunities in the following directions:
1. Optoelectronic Device and Optical System Design:
Graduates can be engaged in the design, research and development, and manufacturing of optoelectronic devices (e.g., lasers, optical fibers, photoelectric sensors, etc.) and optical systems. They can find employment opportunities in optoelectronic device companies, communication equipment companies, electronics manufacturers, and research organizations.
2, photoelectric information technology applications:
Graduates can apply photoelectric information technology to solve practical problems. For example, they can work in the field of communications in fiber optic communications, optical networks and optical sensing. They can also apply optoelectronic technology in industries such as medical devices, security monitoring, aerospace and energy.
3. Optical Engineer:
Graduates can become optical engineers and work in optical design, optical system simulation, optical testing and debugging. They can find employment opportunities in optoelectronic equipment manufacturers, optical component companies, scientific research organizations and other fields.
4. Optoelectronic Information R&D and Innovation:
Graduates can work in R&D and innovation in the field of optoelectronic information. They can participate in the research of new technologies, innovative design of optoelectronic products and the development of new markets. In addition, graduates can also choose to continue their studies for a related master's or doctoral degree, and engage in scientific research or education.
Optoelectronic information and science refers to the combined field of optoelectronics and information science. It covers knowledge and technology in optics, electronics, optoelectronic devices, optoelectronic communications, optoelectronic sensing, optoelectronic information processing and optoelectronic systems.
Study the physical properties of light, light propagation and optical phenomena, including diffraction, interference and polarization of light. Study of the basic principles of electronics and the design and analysis of circuits, including amplifiers, filters, and digital circuits.
Study the principles of operation and performance characteristics of optoelectronic devices, including lasers, photoelectric sensors, photodiodes, and photodetectors.