在可见光范围的透射率超过90%。
测试了晶体的密度、透射率和闪烁性能。
Density of crystal, transmissivity and scintillation characteristics have been measured.
阻光率是透射率的倒数。
薄膜在可见光部分的透射率都在80%以上。
The average transmission of ZAO films in the visible range was 80%.
提出并讨论了部件特征矩阵和等透射率概念。
Characteristic matrix and transmission equivalent are defined and discussed.
镜面透射率像玻璃一样,反映自然状态下的皮肤。
Specular Transmittance shows the skin like it exists naturally, like glass.
欲使两侧的斜度很陡,则必须以损失峰值透射率为代价。
The slopes can be made quite steep, but the peak transmission will decrease accordingly.
从理论和实际两方面比较了制作膜的透射率-波长关系。
A comparison is made of transmissivity-wavelength relation in terms of the theoretical model and the practical one.
目的测定不同波长激光通过不同介质的透射率与吸收率。
ObjectiveTo determine the transmission and absorption of lasers at different wavelength in several media.
利用传输矩阵法,得到传输矩阵元的递推关系式及透射率。
By means of transfer matrix, we get the recursion relations of the transfer matrix elements and transmittance.
对水基四氧化三铁磁流体在缓变磁场中的透射率进行了研究。
The transmission of light in the aqueous ferrofluid films of Fe3O4 in slowly-changing magnetic fields was investigated.
对于激光系统性能而言,谐振腔最佳透射率具有非常重要的作用。
For the laser system performance, the resonator optimum transmission is of great important.
通过能量守恒推导材料体吸收系数与材料反射率和透射率的关系。
The relation of the volumetric ratio , reflectivity and transmissivity can be deduced by the conservation law of energy.
在可见光区域薄膜透射率和反射率随着基板温度的提高均有所下降。
The transmittance and reflectivity in the visible region of these films lowed with the increasing of the substrate temperature.
在受激喇曼散射、波长与透射率关系方面反映了我们的初步计算结果。
In the SRS and the transmissivity for various wavelengthes, some computational results are given.
具体的数值计算表明,修正后的反射、透射率表达式遵循能量守恒定律。
Numerical examples indicate that the modified expressions keep to the principle of conservation of energy.
应用导纳轨迹图解方法,可以确定能诱导出滤光片最大透射率的金属层厚度。
The thickness of metal layer can be confirmed by admittance loci illustrate method.
讨论了泵浦光及振荡光的空间分布变量、晶体长度和透射率对输出功率的影响。
The effect on output power of distribution of space variation, crystal length and transmissivity has been discussed in detail.
结果表明,通过改变入射光强,可以全光学控制基频光束的透射率和它的相移。
The result shows that all optical control of transmissivity and phase shift of a fundamental beam is possible, based on resonance enhancement, through changing input intensity.
发现当微波的传播方向与电场平行时,微波透射率随电场强度增加而单调减小。
When the direction of microwave parallels with the electric field, the transmittance of the microwaves decreases with the intensity of the electric field.
论述了用原子滤波器的透射率廓线测量激光多普勒频移的直接检测方法和理论。
The theory and method of measuring moving target′s velocity using atomic transmission are described.
结果表明,不同外加偏压下,高能态电子透射率谱在一定范围内有显著的变化。
It is shown that for the same system, under different bias voltages, the spectra of the electron transmissivity change obviously within a certain energy range.
电子信号改变了电致变色层的透射率,也就改变了自然光和太阳得热的透射率。
The electrical signal alters the transmission of the electrochromic layer, and thus its opacity to daylight and solar heat.
研究了均匀掺杂(无团簇)及存在团簇现象的稀土掺杂聚合物光纤材料的透射率。
The transmissions of rare earth-doped polymers which uniformly doped (without clusters) and clustering were studied.
循环实验中,薄膜呈现黄色到绿色的可逆变化,最大的透射率变化达到30%左右;
During the cycle experiment, the films exhibited reversible two-color (yellow at oxidation and green at reduction) with a maximum transmittance change of around 30%.
结合电镜观测,表明蒸发膜中的金属铟粒经退火后基本消除,薄膜透射率明显提高。
The result shows that indium particles in evaporated film can be removed by annealing and leads the increase transparency of the film obviously.
输出宽度可通过延时在一定范围内调节,消光比达50000倍,透射率大于90%。
Moreover, the output pulse duration can be adjusted within specified range, the extinction coefficient reaches 50000, and the transmittivity is higher than 90%.
正确选取全息片的偏置透射率,可使反射显示的衍射效率接近或略高于透射显示的衍射效率。
A properly choiced bias transmittance of the hologram can lead to a diffraction efficiency close to or a little higher than that of transmission reconstruction.
在接收系统中,引进窄带干涉滤光片,减少背景光的干扰,增加信号光透射率,改善信噪比。
In the receiving system, the narrow-band interference filter is introduced in order to reduce the background light, increase the signal transmission rate, and improve the signal-to-noise ratio.
在接收系统中,引进窄带干涉滤光片,减少背景光的干扰,增加信号光透射率,改善信噪比。
In the receiving system, the narrow-band interference filter is introduced in order to reduce the background light, increase the signal transmission rate, and improve the signal-to-noise ratio.
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