For an ideal coherent light, the chief factor that affects fringe visibility is light intensity.
对于理想的相干光,影响干涉条纹可见度的主要因素是光波的光强。
Given the loss of fringe visibility, the tolerances of defocus and tilt have also been obtained.
并给出了一定条纹可见度损失的情况下各部分的允许误差。
The universal formulae of the fringe visibility, film resolution requirement and maximum allowable displacement of a particle are given.
给出了全息图条纹对比度、记录介质的分辨率要求和可允许的微粒最大位移的普遍公式。
With increasing beam separation, the number of interference fringes increases and the fringe separation and visibility decrease.
随着光束间距的增大,干涉条纹间距减小,条纹数目增多,条纹可见度减小;
On the basis of structure design of optical system and parameter option of optical components, the visibility of interference fringe with zero background intensity is optimized.
通过对光学干涉系统结构设计和元件参数选择,最大限度地优化了干涉条纹的可见度,并设计出零背景光强标准硅球直径精密测量系统。
By means of orthogonal experiment, the effects of noise, visibility and fringe density on the measuring accuracy of fringe direction and space are analysed in detail.
采取正交实验手段,全面分析了噪声、条纹对比度和密度对条纹方向及间距测量精度的影响。
Traditional speckle fringe patterns by electronic speckle pattern interferometry (ESPI) are inherently noisy and of limited visibility, so denoising is the key problem in ESPI.
原始的电子散斑干涉条纹图中含有很强的颗粒性噪声,对比度很差,因此去除噪声是电子散斑干涉测量技术的关键问题。
Traditional speckle fringe patterns by electronic speckle pattern interferometry (ESPI) are inherently noisy and of limited visibility, so denoising is the key problem in ESPI.
原始的电子散斑干涉条纹图中含有很强的颗粒性噪声,对比度很差,因此去除噪声是电子散斑干涉测量技术的关键问题。
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