Optoelectronics
Optoelectronics
OPTOELECTRONICS technology not only involves the interdisciplinary fields of optics and electronics, but also involves multiple fields such as materials science and computer science, providing new ideas and methods for technological innovation. The content of optoelectronic technology is very rich, such as fiber optics, optoelectronic devices, photodetectors, LED-LCD-OLED technology, infrared thermal imaging technology, etc., which affects all aspects of people's lives and work. The application of OPTOELECTRONICS technology is very extensive, involving multiple fields such as communication, sensing, display, energy, military, etc. It plays an important role in promoting economic development, promoting technological innovation, improving quality of life, and enhancing international competitiveness. OPTOELECTRONICS experiments involve various experimental skills, such as optical path adjustment, optical measurement, data analysis, etc. Through experiments, students can develop their experimental skills and hands-on abilities. Through a series of experiments, students can also learn about the widespread applications of optoelectronic technology, such as industrial automation, intelligent manufacturing, environmental monitoring, etc. Through OPTOELECTRONICS experiments, we can understand the application needs and development directions in these fields, prepare for future employment, and enhance employment competitiveness.