光谱仪是一种重要的光学仪器,广泛应用于科学技术的各个领域。
Spectrometer is an important optical instrument. It is widely used in various areas of science and technology.
探讨了复合形优化方法在光谱仪光学系统设计中的可行性和应用方法。
The feasibility and application method of the constrained complex method in designing spectrometers' optical system is discussed.
采用二元光学元件的成像光谱仪结构紧凑,体积小,扫描速度快,已研制出地面实用型产品;
The imaging spectrometer using diffractive optics has compact construction, small volume and rapid scanning speed, and its practical ground manufacture have been visible.
采用直读光谱仪、显微硬度机、光学显微镜和扫描电子显微镜等分析手段,对失效的汽车发动机活塞连杆总成断裂原因进行了分析。
Aemission spectrometer, micro-hardometer, optical microscope and scanning electron microscope were used to analyze the reason of crack on connecting rod unit assembly for piston of car engine.
研制成测量材料光学特性的红外椭圆偏振光谱仪,其测量波长范围为2。
A type of infrared spectroscopic ellipsometer was designed and constructed to study the optical properties of materials in the 2.
研制成功一种基于集成光学声光可调谐滤波器(IAOTF)的新型近红外光谱仪。
A near-infrared spectrometer based on an integrated optical acoustooptic tunable filter (IAOTF) is constructed.
介绍了傅里叶变换光谱仪的衰减内全反射装置(atr)的基本原理、光学和机械结构设计。
The general consideration, design of optical and mechanical structure for an inner attenuation total reflection (ATR) instrument used in infrared Fourier transform spectroscopy were introduced.
光谱仪是一种用于对黑色金属和有色金属进行快速分析,以鉴别金属牌号或区分混料的光学仪器。
Spectrometer is mainly used to quickly detect ferrous metal and nonferrous metal, so different metal brands can be classified and specified.
通过采用光学掩膜的方法成功制备了符合设计尺寸要求的可见光滤光片,并利用光纤光谱仪测试了滤光片的光谱特性。
The precise size filter is deposited with the mask method successfully, the spectrum characteristic is tested through utilizing the optical fibre spectrometer.
光学薄膜技术在近十年来取得的进步,为拉曼光谱仪提供了高性能、高品质且低价格的光学滤光片。
Advances in optical coating technology over the past decade have made it possible to produce high-performance Raman spectroscopy filters with better reliability and at lower costs.
通过一个实际的成像光谱仪例子,将改进的车尔尼·特纳型成像光谱仪光学结构型式的性能与现有的车尔尼·特纳型光谱仪结构型式的性能进行了比较。
We compare the performance of this modified Czerny-Turner imaging spectrometer with that of the existing Czerny-Turner arrangement by using a practical Czerny-Turner imaging spectrometer example.
通过一个实际的成像光谱仪例子,将改进的车尔尼·特纳型成像光谱仪光学结构型式的性能与现有的车尔尼·特纳型光谱仪结构型式的性能进行了比较。
We compare the performance of this modified Czerny-Turner imaging spectrometer with that of the existing Czerny-Turner arrangement by using a practical Czerny-Turner imaging spectrometer example.
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