1)  laid finish
条纹印痕
2)  laid line
条纹印痕
3)  stripe
条纹
1.
Effects of creating channel and stripe by solidified fiber for fabricating porous bioceramics;
固化纤维在多孔生物陶瓷内的隧道条纹效应
2.
Automatic Identification and Quantitative Assessment for Stripe Effect on Fabric Surface;
织物表面条纹效果的自动识别与定量评价
3.
Investigation of the distribution of raster diffraction stripe;
光栅衍射条纹分布的探讨
4)  Striation
条纹
1.
Striation Filter and its Optimization Method;
条纹式滤光片及其优化方法
2.
The procedure of pipe laser oxygen cutting and the model of generation of striation on cut surface were studied respectively.
了研究管材激光有氧切割过程和切割表面条纹形成模型。
5)  Fringes
条纹
1.
The basic steps of the laser interferometric imaging is as follows: firstly, forming laser interference fringes in a certain space; secondly, the scattered light is yielded from an object which travels across the interference field, then a detector is employed to detect the scattered light; finally the image is reconstructed through certain processes to the scattering light.
激光干涉成像的基本方式是,利用激光在空域形成干涉条纹场,当目标同条纹场间有相对运动动时,其产生的回波信号强度会发生变化,利用探测器探测回波强度,再将此强度信号进行处理,便可获得目标强度反射率分布函数,达到还原像的目的。
6)  fringe
条纹
1.
The Optimum Angle of Eliminating Harmful Fringes of Copy Holograms;
消除拷贝全息图有害条纹的最优化角度
2.
Model Study of Time Delay and Phase Fringe Stopping in Satellite Observation of VLBI;
卫星VLBI观测时延和相位条纹旋转模型研究
3.
The theory and method of wavelet spectrum are applied in correlation process of VLBI system, and models in time field, frequency field and correlation field are built based on orthogonal Daubechies wavelet, and researches are made on variances and residual time delay of correlation phase fringe of observation satellite signal by wavelet method in an availability frequency band.
卫星VLBI观测信号以相关处理机为关键处理技术,将小波谱分析理论和方法应用于VLBI观测信号的相关处理过程中,以Daubechies正交小波构建时域、频域和相关域模型,在有效信号带宽的范围内对卫星观测信号在时域、频域和相关域进行小波分析研究,对互相关相位条纹进行方差和剩余时延分析,结果表明尽管只对两个台站的卫星观测信号进行了整数bits的时延补偿,但小波谱模型在卫星VLBI观测信号的相关处理过程中,对相关相位条纹谱的质量有明显的改善。
7)  schlieren
条纹
8)  streak
条纹
9)  striae
条纹
10)  stria
条纹
补充资料:条纹

  
  条纹
  Fringe

  条纹(fringe) 光学条纹是指利用光的干涉或衍射产生的亮暗带。条纹间的距离一般很小,因为光的波长很短。单色光产生的条纹比较清楚,数目也较多。 由一个点光源或一条狭缝发出的光,通过任何形状的不透明物体都可形成衍射条纹。当人射到障碍物和由障碍物出射的光基本上是平面光波时,所产生的夫琅和费衍射条纹在光学仪器理论中特别重要。参阅“衍射,,(diffraetion)、“分辫本领,,(光学)[resolving power(opties)〕各条。 把发自一个共同光源的两束光或多束光会合到一起,便可得到干涉条纹。这通常是利用一台为此目的专门设计的干涉仅来实现的,尽管在自然界中也可以看到干涉条纹,例如肥皂膜和水面上油膜的颜色。当条纹的变化可以控制时,比如改变干涉仪中两束光的传播路程,就可以用来精确测量很小的距离和微小的折射率差。参阅“波的干涉(interference。fwaves)”、“千涉量度学”(interferometry)各条。 如果将激光通过一台干涉仪,也可以通过观察条纹的锐度和漂移来检查激光的特性,如相干性和相位起伏。参阅“激光器”(l aser)条。 〔詹金斯(F .A.Jenkins)撰]
  
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参考词条