在透射模式中,不需要消色差的四分之一波片。
For the transmissive mode, no achromatic quarter-wave film is needed.
观察到一种新的对透射光谱的模式耦合影响。
A strong influence of mode coupling on strip-line transmission spectra has been observed and analyzed.
运用数据集群技术,建立了我国不同时空尺度直接透射率的估算模式,对比分析了不同模式的拟合精度。
Based on data integration technique, direct transmittance models for different temporal and spatial scales were established and the accuracy of different models was analyzed thoroughly.
发现光纤光栅F P干涉仪的透射率和光谱半宽度对轴向应变十分敏感,而F P腔的中心波长和工作模式却变化较小。
That transmission rate and the FWHM of the fiber grating FP are very sensitivity for radial strain. But the central wavelength, mode number of the fiber grating FP are insensitivity for radial strain.
而TE模式下(太赫兹波偏振方向平行于狭缝),太赫兹波段金属亚波长狭缝的透射规律与单个金属亚波长圆孔相同。
In the case of the te mode (the polarization direction along to the slit), the transmission characteristics are the same as that of the single sub-wavelength metallic circular hole.
还讨论了这种显示模式在透射和反射显示中的应用前景。
Promising applications of this operation mode for both transmissive and reflective displays are discussed.
作者使用超薄切片,冷冻断裂和剥离技术在分析电镜中以透射(TEM)、扫描透射(STEM)和扫描(SEM)成象模式研究了兔毛纤维的微观结构。
Using ultramicrosection, cryofracture and peeling technique, the fine structure of rabbit hair was investigated in an analytical electron microscope by TEM, STEM and SEM imaging models respectively.
作者使用超薄切片,冷冻断裂和剥离技术在分析电镜中以透射(TEM)、扫描透射(STEM)和扫描(SEM)成象模式研究了兔毛纤维的微观结构。
Using ultramicrosection, cryofracture and peeling technique, the fine structure of rabbit hair was investigated in an analytical electron microscope by TEM, STEM and SEM imaging models respectively.
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