1.
monochromator in visible and ultraviolet
可见光区与紫外区单色仪
2.
For ultraviolet, nanometer is a preferred term.
对于紫外区通常用毫微米这一名词。
3.
The Preparation and Characterization of near-UV CdS Quantum Dots
近紫外区CdS量子点的合成及表征
4.
UV Scattering Characteristics of TiO_2 Particle Based on Mie Light Scattering Theory
TiO_2颗粒紫外区Mie散射特性
5.
Determination of hydroxybenzene in water by ultraviolet spectrophtometry is based on the theory that hydroxybenzene has absorption spectrum in ultraviolet band.
根据酚类在紫外区有吸收光谱的原理,以紫外分光光度法直接测定水中酚。
6.
Both vanillin and ethyl maltol have absorption at UV range, and their absorption spectra are seriously overlapping.
香兰素、乙基麦芽酚在紫外区均有吸收,其吸收光谱严重重叠。
7.
fluorescence-exciting ultraviolet region
发荧光的紫外线光区
8.
Experimental Evidence on Di-Rigion Mechanism of Carcinogensis with Ultraviolet Radiation;
紫外光的双区理论致癌机理实验验证
9.
Ultraviolet light or the ultraviolet part of the spectrum.
紫外光,紫外线的紫外光或光谱的紫外线部分
10.
Electromagnetic radiation with frequencies in the ultraviolet and visible region can be absorbed by molecules.
分子能吸收频率在紫外和可见光区的电磁辐射。
11.
Optical Properties of the Diamond-like Carbon Films at the Ultraviolet and Visible Range
类金刚石薄膜的紫外可见区光学特性研究
12.
Spatial and Temporal Variability Characteristics of Ultraviolet Radiation in Eco-regions of China from 1961 to 2000
1961~2000年中国生态区紫外辐射的时空演变特征
13.
Characteristics of ultraviolet radiation intensity in the main urban area of Chongqing,China
重庆主城区紫外线辐射强度变化特征分析
14.
If the experiment calls for measurements in the ultraviolet, the cuvette holder can be optimized to more efficiently transmit ultraviolet light.
如果实验要求在紫外线区域进行度量,那么可以优化小型管固定器使其更有效的传输紫外光。
15.
Attenuation is fairly flat in the Visible but increases dramatically in the UV region.
衰减在可见光区域非常平缓,但在紫外光区域就显著增加。
16.
ultraviolet rays
紫外线,2. 紫外线的;产生紫外线的;应用紫外线的,n.1. 紫外线辐射,紫外光
17.
Located on the outer western road of the Forbidden City and on the western side of the Cining Palace, Shoukang Palace was where the emperors’ mothers (huangtaihou) lived.
寿康宫位于紫禁城外西路,慈宁宫西侧,是皇太后的生活区。
18.
Two fluorescent compounds, shown absorptions in near ultraviolet region, can emit red and blue fluorescence respectively with high fluorescent quantum yields.
两种隐色化合物在近紫外光区有吸收并分别发射红色和蓝色荧光。