当光束通过光纤,光强度趋于降低。
When beams of light pass through a fiber optic cable, they tend to degrade.
结论稀土配合物具有很强的荧光强度。
Conclusion The rare earth ternary complexes have strong fluorescence intensity.
测光表:用来测量光强度的一种电子曝光表。
Light meter: An electrical exposure meter for measuring light intensity.
你可以降低灯光强度,但物体表面仍然会偏亮。
You can decrease the intensity, but the surfaces will always be lighted a tad bit.
提出激光硬化时的激光强度分布特性和主要参数。
In this paper characteristics of field pattern distribution by laser hardening and the important parameters are presented.
分子的消光系数等于入射光和透射光强度对数的比。
The molecular extinction coefficient is equal to the ratio of the log of the intensity of the incident and emergent light .
讨论了转光膜荧光强度与膜厚度的关系及光谱校正问题。
Dependence of intensity on thickness of LCFF and fluorescence spectra correction are investigated.
本文提出一种采用光强度调制非线性外差检测的传输方案。
This paper presents an optical communication system algorithm with intensity modulation and nonlinear heterodyne detection.
本文叙述使用两个荧光参比溶液调节仪器的荧光强度测量法。
A measurement of fluorimetric intensity by using two fluorimetric reference solutions to check the instrument is described.
如上所述,这种发光强度的操纵创造了可在电脑显示器上创造色。
As mentioned above, this manipulation of the phosphor intensity creates the gamut of colors which can be created on the computer monitor.
PEG的加入有助于提高发光强度,是因为降低了羟基的荧光淬灭。
The luminescent strength is improved owing to decrease the fluorescence quenching of hydroxyl group when PEG is incorporated.
他并表示电信服务和电力供应也可能受天文重力和光强度突变的影响。
He suggested telecommunications and power transmission might also be affected due to sudden changes in astronomic gravity and light intensity.
短弧氙灯是一种发光强度高,具有从紫外到红外的连续光谱的点光源。
The short arc Xenon lamp is a sort of point source having very high luminous intensity and a continuous spectrum from ultraviolet to IR.
通过改变这些荧光强度发光,电脑显示器可以在每个像素变化的感知颜色。
By varying the intensity which these phosphors glow, the computer monitor can vary the perceived color at each pixel.
能测试各种LED发光矩阵每个发光元的发光强度,正向压降和反向电流。
It can be used to measure the luminous intensity, forward voltage, reverse current of each luminous dot in all kinds of LED luminous dot matrix.
经由简化光强度搭配有限元素法所得到的数据,模拟并讨论两者间的差异。
Through the simplification of intensity with the finite element method of data. simulation and discuss both the difference.
这个小标签能记录温度、深度和光强度,并与时间相关,从这些数据我们就能确定位置。
That little tag can record temperature, depth and light intensity, which is correlated with time, and from that we can get locations.
尽管这个团队尚未量化这种效果,但是似乎随着光强度增加,效果会更加明显。
Though the team has yet to quantify this effect, it appears to increase as the intensity of the light increases.
采用荧光强度比率分析方法,检测品种广,量程宽,分析速度快,样品耗量少。
Using fluorescence intensity ratio method of analysis, detection of wide variety, wide measuring range, fast analysis speed, less sample consumption.
基本渲染的结果是被屏幕内容填满的Z缓冲和带有法线和高光强度的渲染纹理。
Result of the base pass is Z buffer filled with scene contents and Render Texture with normals & specular power.
结果表明,血卟啉的荧光强度和单态氧的量子产额较高,它们均为有效的光敏剂。
The results indicate that the laser fluorescence intensity and the singlet oxygen quantum yield of hematoporphyrin are better than others and they may be effective photosensitizers.
除了湖泊中非常低的光强度外Howard - Williamsetal。
Besides the very low light intensities in these lakes Howard-Williams et al.
实验还测得了各产物离子信号分支比对激光强度的依赖性和总离子信号的光强指数。
We also measured the dependence of fragmental ratio of each ions on laser intensity and laser power index of total ions.
发现在不同的注入光强度和波长下,激光器的调制带宽和弛豫振荡峰频率会发生变化。
The modulation bandwidth and the relaxation oscillation frequencies of the laser are quite different at different injection powers and wavelengths.
不同DCMU浓度处理叶片后延迟荧光强度与叶片光合速率的变化表现出很好的相关性。
With the different concentration of DCMU treatment, the intensity of the DF and net photosynthesis rate (Pn) behaved excellent correlation.
在太空中,太阳光强度至少是地面的5倍,这使得巨大的太阳能光伏板可以收集到大量能源。
Solar rays are at least five times as powerful in space as they are at ground level, allowing the huge panels to gather vast quantities of energy.
在太空中,太阳光强度至少是地面的5倍,这使得巨大的太阳能光伏板可以收集到大量能源。
Solar rays are at least five times as powerful in space as they are at ground level, allowing the huge panels to gather vast quantities of energy.
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