我们利用专有技术,工艺,涂料,生产出高质量性能保证的窗膜,能够达到最高的光学精密水平。
Using proprietary technology, processes, and coatings, we produce films that achieve the highest levels of optical precision, with quality performance guaranteed.
应用超精密加工技术解决了激光核聚变光学元件的大批量加工问题。
The problems of batch manufacturing optical components in laser nuclear fusion are solved by applying the technology of the ultra precision machining.
针对目前大口径精密光学透镜表面疵病检测方法的不足,提出了一种基于线阵CCD的机器视觉检测技术。
Aiming at the shortage of current inspection technology for surface flaws of large-caliber optical lens, a machine vision inspection technology based on line CCD is studied.
本文对目前塑料光学制件精密成型技术进行了研究。
Analyzed the current precision moulding technology of plastic optical parts.
在光学精密测试领域中,光学技术和电子计算机技术的结合为新的测试方法开辟了一条新的途径。
In the field of optical precision testing, however, the combination of optical technology and computer technology pioneers in the development of new testing method.
激光扫描测微仪是光学扫描技术在精密测量中的典型应用。
Laser scan micrometer is a type apply in precise measure of optical scan tech.
本文提出了采用计算机控制光学表面成型(CCOS)技术用于高陡度精密光学非球面成型的一种方法,并阐述了CCOS的工艺流程,设计了相应的CAM系统。
This paper presents a method of producing high gradient precise optical aspheric surface by CCOS technology. We have designed an auto surfacing CAM system with 5 degrees of freedom.
超精密机械加工技术作为微光学元件的一种制造方法,具有很多其他传统方法所不具有的优点。
Precision machining, as a manufacturing technique of micro - optical components, has many advantages which are difficult or even impossible for other traditional methods.
本文所研究的光学坐标测量系统是建立在数字近景测量技术的基础上的一种新型精密测量系统。
The Opitical Coordinate Measuring System studied in this paper is based upon the digital CRP technology.
三坐标测量机以精密机械为基础,综合应用了光学、电子技术、计算机技术等先进技术。
The CMM based on precise mechanism integrates the application of optics, electronics and computer technology.
光学双稳在光通信、光计算、光传感、以及激光强度控制和光学精密计量技术等方面都有重要应用。
Optical Bistability has been found important applications in many fields such as optical communication, optical computing, optical sensor, laser power control and optical high accuracy measurement.
自动对焦技术是机器人视觉、数字成像系统和各种精密光学仪器中的关键技术。
Auto-focusing technology is a key technology in the robot vision and imaging system and various optical precision instruments.
投影显示技术是九十年代兴起的一种大屏幕显示技术,它集微电子技术、精密光学仪器技术以及精密机械技术为一体,已成为现代显示领域的主流。
This display technology integrates microelectronics, precision optical instrumentation and precision mechanical technology, and is becoming one of the main stream in the present display field.
例如,光子晶体光纤中超连续光谱产生在光相干层析技术、高精密光学测量等领域有很重要应用价值。
Supercontinuum generation in PCFs has subsequently been widely applied in interdisciplinary fields such as optical coherence tomography and optical frequency metrology.
这种结构的光子晶体可以用来制作超窄带滤波器和多通道窄带滤波器,有望在光通信超密度波分复用技术和光学信息精密测量技术中获得广泛应用。
The concept of quasiperiodic one-dimension photonic crystal nanometer film is proposed, and research finds that it can be applied to realize optic narrowband filter.
在超精密台式三维Optocal探查带来了高性能既属于精密制造技术和研究公司达成光学测量。
The Ultra Precision Benchtop 3D Optocal Profiler brings high performance optical measurements within the reach of both precision manufacturing and research companies.
在超精密台式三维Optocal探查带来了高性能既属于精密制造技术和研究公司达成光学测量。
The Ultra Precision Benchtop 3D Optocal Profiler brings high performance optical measurements within the reach of both precision manufacturing and research companies.
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