Fig. 2. the structure of double grating monochromator.
图。2…双光栅单色仪结构图。
The monochromator has a large horizontal collection Angle.
这个单色器有很大的水平接收角。
The expected performance of the monochromator could be obtained.
可以得到预期的单色器性能。
For a more detailed description of how a monochromator works, see below.
对于单色器是如何工作的更详细的说明,见下文。
The optical designing process of the monochromator and the VUV beamline confiq…
本文也详细描述了单色器光学设计程序和同步辐射VUV光束线方案。
Monochromator is very important part in living cell fluorescence microscopy system.
单色激发光源是单细胞荧光显微系统中的重要组成部分。
Monochromator is a very important part in living cell fluorescence microscopy system.
单色激发光源是单细胞荧光显微系统中的重要组成部分。
The spectrophotometer UV365 is a research grade instrument with the double-monochromator.
UV365分光光度计是一台双单色仪研究型仪器。
Hinge technology is used to study focusing behavior of a sagittal focusing crystal monochromator.
弧矢聚焦晶体单色器研制项目中。
It consists of a grating-prism monochromator, detectors, readout electronics, standard lamps and a microcomputer.
它由光栅-棱镜单色仪、探测器、读数仪表、标准灯组及微型计算机组成。
Vertically focused monochromator technique is an effective tool of increasing neutron intensity at sample position.
垂直聚焦单色器技术是提高样品位置中子强度的有效手段。
We got much useful data and supply stronger warrant to the engineering design of the sagittal focusing monochromator.
为弧矢聚焦晶体单色器的工程设计和工艺实施提供了有力依据。
The effect on amplitude of EXAFS from harmonic caused by high order diffraction of crystal monochromator is discussed.
本文讨论了晶体单色器高次衍射形成的谐波对EXAFS振幅的影响。
Spectrophotometers for recording spectra consist of a suitable light source, monochromator or interferometer and detector.
记录光谱的分光光度计由合适的光源、单色器或干涉器和检测器组成。
The intensity gains comparing to flat monochromator and the neutron intensity distribution at sample position were also given.
计算和对比了使用聚焦单色器和平板单色器的强度增益和样品位置处的中子强度分布。
Finally adopted a diffraction grating monochromator spectral characteristics of optoelectronic devices as measuring equipment.
最终采用衍射光栅单色仪作为测量光电器件光谱特性的设备。
The energy aberration of crystal monochromator in the case of continuous X-ray spectrum, for instance EXAFS, has been discussed.
本文讨论了在连续X射线谱的情况下,例如EXAFS谱时,晶体单色器的能量色差。
It consists of standard sources integrated sphere, double grating monochromator, detectors, and electronics-microcomputer system.
它由标准光源,积分球,双光栅单色仪,探测器及电子学—计算机系统组成。
A monochromator can separate specific wavelengths of interest, and a detector l, used to measures the intensity of the emitted light.
单色器可以把有用的特征波长分开,检测器用来测定发射光的强度。
Using mathematical model to simulate the monochromator system, the optical and mechanical design could be made by the emulation result.
在理论分析的基础上,进行了相关光学设计和机械设计,确定了最终的方案。
The double grating monochromator structure of pure rotational Raman lidar is introduced and the corresponding lidar equation is deduced.
介绍了双光栅转动拉曼激光雷达的双光栅单色仪结构,并推导了相应的雷达公式。
The aft part of the detection module and the exit slit of the second monochromator are provided with photoelectric conversion components.
所述检测模块后部和第二单色器的出射狭缝设有光电转换组件。
A novel mechanism for the fixed-exit double crystal monochromator of Bragg-Bragg diffraction case used widely in synchrotron radiation was presented.
提出了一种实现固定空间输出位置同步辐射双晶单色器的方法及联动机构。
So it's necessary to measure the intrinsic width and the error in the normal direction of the crystals to provide basis for the monochromator alignment.
因此,晶体在投入使用之前,测量它的本征宽度,为单色仪的调试提供依据是非常必要的。
This study directs to discussing the new 1st crystal turning shaft system of double-crystal monochromator in the third generation synchrotron radiation.
以研究第三代同步辐射双晶单色器第一晶体新型转轴驱动系统为目的。
A sub-angstrom spatial resolution and sub-eV energy resolution can be reached in new type of FEG TEM in combination with monochromator, C_S corrector and HR-GIF.
配有单色 器、球差校正 器、HR GIF的新一代场发射枪透射电子显微镜可提供亚埃的空间分辨率和亚电子伏特的能量分辨率,为研究物质的原子 电子结构提供了可靠的保证。
So, this project adopts the realization scheme of double-pass raster monochromator plus direct drive and direct reading of the raster's angle position to control.
因此,本设计采用双通光栅单色仪加直接驱动直接读取光栅角位置控制的实现方案。
When these excited atoms return to the ground state, they will emit energy of a characteristic wavelength. The monochromator can direct these wavelengths to a detector.
当这些激发的原子回到基态时,会发射特征波长的能量。单色器可把这些波长引到检测器。
When these excited atoms return to the ground state, they will emit energy of a characteristic wavelength. The monochromator can direct these wavelengths to a detector.
当这些激发的原子回到基态时,会发射特征波长的能量。单色器可把这些波长引到检测器。
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