With the continuous development of science and technology. Artificial intelligence, robots, the Internet of Things, and the semiconductor industry have ushered in rapid development. Its requirements for product quality are becoming more stringent, and optical detection laser pointer technology will play an important role. To this end, discuss the new development of optical detection technology and application areas.
The first category is laser and laser processing system; the second category is photoelectric display (colorimetric and photometric testing); the third category is optical precision machinery, such as consumer electronics and automated production lines (automated robots) ; The fourth category is spectrum application systems, such as Raman spectroscopy for explosives detection and food safety detection applications. The spectrum application system was mainly based on scientific research. Since last year. We have focused on systems where spectroscopy is used in industry. Such as mobile phone 3D glass detection, food detection, safety detection, explosive detection and drug detection applications.
At present, it is difficult to say how large the scale of the domestic green laser pointer market for optical inspection is. However, medical inspection, safety inspection, materials, photoelectric display and other industries are inseparable from optical inspection. For example, blood analysis and urine analysis in the medical field must be applied to optical detection. For another example, the most popular food safety inspections in recent years have been conducted through infrared absorption spectroscopy and Raman spectroscopy. In addition, the current new industries, such as artificial intelligence, Internet of Things terminals, etc., are inseparable from optical detection, as is the laser radar in the field of autonomous driving. Therefore, the market potential of optical inspection is huge.
In industrial applications, such as mobile phone detection applications. The traditional AOI detection method can not detect 3D glass. The confocal spectroscopy technology solves this problem well. This technology is also a relatively new technology in the world. In addition, in the field of public safety detection applications, especially the detection of explosives and drugs, there has been no good detection method. The Raman detection scheme currently under development can quickly and accurately detect explosives and drugs. On the other hand, for human health testing, Raman spectroscopy is being used to analyze the composition of human stones. Biomedical applications. It will also become a new development direction for us.