In optical spectroscopy a correct intensity measurement of the probe beam is fundamental during material characterization.
在光谱学中,探测器光柱的正确亮度测量是描述材料的基础。
The application principle, current research status and the problems of the optical spectroscopy technique in diagnosis were presented.
本文介绍光谱技术在血液诊断学研究中的应用原理与研究现状;
For example, in optical spectroscopy, a correct intensity measurement of the probe beam is fundamental during material and device characterization.
例如,在光谱学中,探测器光柱的正确亮度测量是材料和设备描述的基础。
Photothermal techniques can provide the information that pure optical spectroscopy is not able to give, such as optical-to-thermal energy conversion efficiency.
光热技术可以提供纯光学光谱学所无法提供的、类似光-热能量转换效率之类的信息。
Temperature measurement technique based on the principles of optical spectroscopy was discussed and the spectroscopic pyrometer developed thereunder was presented.
论述了基于光谱学原理的温度测量技术.介绍了在上述原理下建立起来的光谱测温仪。
By using UV photoelectron spectroscopy and optical absorption measurements, the researchers determined the energy of the lowest excited electronic states in the nanocrystals.
通过紫外线光电子光谱和光学吸收的测量,研究人员测定了纳米晶体中电子的最低激发态能级。
The research in this paper can offer reference to mechanism of interaction between light and blood, the optical biological effect and clinic diagnose technology in virtue of spectroscopy.
本文的研究结果对于光与血液的相互作用机理研究,光生物效应研究,以及光谱学方法在临床检验中的应用研究均具有参考价值。
The author takes light source of the rectangle optical spectrum as an example to calculate time relevant degree and briefly describes Fourier's spectroscopy principle.
以矩形谱线的光源为例,计算了时间相干度,简要介绍了傅里叶变换光谱学原理。
Optical heterodyne magnetic rotation enhanced velocity modulation spectroscopy (OH-MR-VMS) is an absorption spectroscopic technique for selective detection of the molecular ions.
光外差磁旋转速度调制光谱技术是一种对离子分子选择性测量的高灵敏激光吸收光谱技术。
Against this backdrop, the optical, vibrational, and magnetic properties of transition metal complexes are presented and their investigation by the appropriate spectroscopy is described.
在这背景下,陈述过渡金属配合物的光学、振动和磁学性质,以及通过适当的光谱方法探讨这些性质。
Differential optical absorption spectroscopy has become a widely used method to measure trace gases in the atmosphere.
差分光学吸收光谱法已经变成了测量大气中微量气体浓度常用的方法。
Differential optical absorption spectroscopy (DOAS) has become a widely used method to measure trace gases in the atmosphere.
差分光学吸收光谱法(DOAS)已经成为测量大气中微量气体浓度广泛应用的方法。
Optical absorption spectroscopy and Z-scan technique were used to measure linear absorption and third-order optical nonlinearity of the films.
利用光学吸收谱和Z -扫描技术研究了该复合薄膜的线性和三阶非线性光学性能。
The nonlinear spectroscopy created by many kind of optical processes are observed while two-photon resonance enhanced the atomic nonlinear susceptibility.
双光子共振增强了碱金属原子的非线性极化率,可以观测到多种非线性光学过程产生的非线性光谱。
Nonlinear absorption occurs when the differential optical absorption spectroscopy (DOAS) is used to monitor the flue gas with high SO2 concentration from fixed pollution source.
差分光学吸收光谱法(DOAS)应用于固定污染源烟气排放监测时,烟气中污染气体so2浓度较高将产生非线性吸收问题。
With the method of differential optical absorption spectroscopy(DOAS), aerosol along the light path is measured with a flashlight source.
介绍了一种基于闪烁氙灯光源、利用差分光谱吸收(DOAS)技术监测大气气溶胶的新方法。
Optical absorption spectroscopy and X-ray absorption fine structure technique were used to study the formation mechanism of Cu nanoparticles and local structures of copper atoms in silicate glass.
利用光学吸收谱和X射线吸收精细结构谱分析了铜纳米颗粒在玻璃中的形成机理及其局部结构。
Optical heterodyne Zeeman modulation magnetic rotation spectroscopy (OHZM MRS) is a high sensitive spectroscopy technique.
光外差-塞曼调制磁旋转光谱技术是一种高灵敏的吸收光谱技术。
Optical high harmonic generation is extending frequency comb techniques into the extreme ultraviolet, opening a new spectral territory to precision laser spectroscopy.
光纤产生高次谐波频率梳技术扩展到极端的紫外线,打开一个新的精密激光光谱的光谱领土。
With the method of differential optical absorption spectroscopy (DOAS), aerosol along the light path is monitored and its size distribution is measured with double optical path method.
介绍了利用双光路差分吸收光谱(DOAS)技术监测大气气溶胶并反演其粒谱分布的新方法。
The distribution of radicals in CHF3/C6H6 electron cyclotron resonance (ECR) plasma was investigated by an actinometric optical emission spectroscopy (AOES).
使用光强标定的发射光谱(AOES)测量了CHF3/C6H6混合气体的微波电子回旋共振(ECR)放电等离子体中基团的分布状态。
Thermal atomic vapor is usually used as optical medium for laser spectroscopy experiments.
热原子蒸气是激光光谱实验中常用的光学介质。
The braze and interfacial microstructures were characterized by optical microscopy, scanning electron microscopy, and energy dispersive spectroscopy.
在钎焊和界面微观结构的特点是光学显微镜,扫描电子显微镜和能谱。
The calculations are based on optical constant data derived from measurements by dispersive Fourier transform spectroscopy.
计算基于由色散傅里叶交换光谱测量结果推导出的光学参数。
The effects of rare earth Y on the microstructure and properties of low carbon micro-alloyed steel were studied by optical microscope, scanning electron microscopy and spectroscopy.
利用光学显微镜和扫描电镜以及能谱分析,研究了稀土元素钇对低碳微合金钢组织、性能的影响规律。
SANOA long-path differential optical absorption spectroscopy system is used to monitoring SO2, NO2 concentration in air automatic monitoring sub-station.
SANOA长光程差分吸收光谱监测系统,适用于空气自动监测子站SO 2、NO2的测量。
A new diagnostic method using optical emission spectroscopy to determine electron temperature in inductively coupled nitrogen plasma is proposed.
本文提出了一种新的利用发射光谱测量感应耦合氮等离子体的电子温度的诊断方法。
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.
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。
Photoacoustic spectroscopy (PAS) is a new technique to study optical properties of rare earth pigments and glazed tiles, which are non-transparent, highly reflective and scattering.
光声光谱适于研究不透明、高反射、高散射的稀土色剂和釉瓷的光学性质。
Optical information processing, applied optics, optometry, laser technology, spectroscopy, optical fiber optics, biomedical optics.
光学信息处理,应用光学,视光学,激光技术光谱学,光纤光学,生物医学光学。
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