The hottest future optical instruments will develo

2022-07-27
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In the next 10 years, the development and application of high and new technologies will further promote the integration and intelligence of optical, mechanical and electrical calculation of optical instruments. Today's intelligent instruments should be more accurately called "microcomputer based" instruments. The future optical measuring instruments and meters are to simplify the design, compress a large number of parts, improve intelligence and facilitate operation, and develop measuring and testing instruments and meters

the current situation and the latest development speed of domestic instrument and meter skills are relatively slow. At present, China's instrument industry has a complete range of categories and has a certain industry foundation. In developing countries, it is "upstream", but there is a significant gap with developed countries

optical measuring instruments have been computerized and optoelectronic from large-scale precision instruments - coordinate measuring machines to traditional autocollimators and projectors. The combination of laser technology and the introduction of CCD and other optoelectronic devices have created conditions for faster, accurate and reliable detection and monitoring. Optical instruments are gradually developing towards automation and photoelectricity

in the next 10 years, the development and application of high and new technologies will further promote the integration and intelligence of optical, electromechanical and computing of optical instruments. Today's intelligent instruments should be more accurately called "microcomputer based" instruments. The high degree of intelligence is the highest level of information technology, which should include a series of functions such as understanding, reasoning, judgment and analysis. It is the result of the combination of numerical value, logic and knowledge. The symbol of intelligence is the expression and application of knowledge. The continuous development and functional perfection of electronic technology, computer technology and optoelectronic devices have created conditions for the instrument to develop to a higher level of intelligence

in the next 10 years, the penetration of light and electricity will be further strengthened. More new technologies and new devices in the EU amendment (EU) no2016/1416 issued in August last year will be promoted and applied. Therefore, different principles will be integrated on the basis of optical, electromechanical and computer integration to derive products for new purposes to meet the growing needs of various fields. The development and application of optoelectronic devices and functional materials with excellent performance will accelerate the development of modern optical instruments. Such as CCD devices, semiconductor lasers, optical fiber sensors and other manufacturing technologies tend to be mature, and the application has made a breakthrough, showing a wide range of application prospects. It will certainly bring about important changes in the field of optical instruments, and promote the miniaturization and high-resolution of products. However, the wide-ranging utilization in China has just begun, and the development of Optoelectronics and automation

the future optical measuring instruments and meters are to simplify the design, compress a large number of parts, improve intelligence and ease of operation, and develop measuring and testing instruments and meters

utilize the new effects of physics, high and new technologies and their achievements to develop new measuring and testing instruments and new sensor technologies with high sensitivity, high stability and strong anti-interference ability. For example, high temperature superconducting quantum interferometer (sguid) is used to develop measurement and testing instruments, physical testing instruments, geological and geological instruments, chemical analysis instruments, medical instruments, nondestructive material testing instruments, etc. It is well known that ellipsometry is used to detect optical fiber, optical glass, etc. combined with near-field optics, it can not only measure the surface fine structure, but also distinguish the material of the measured object according to the polarization information of near-field optical reflection, which is a new exploration of experimental research at present

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