讨论了这种情况下的菲涅耳公式以及光强的反射比、透射比表达形式。
The expression of Fresnel formula, the reflectance of light intensity, and the transmission of light intensity were given in this particular case.
本文利用菲涅耳公式讨论了光在透明介质界面反射、折射的偏振和相位。
The paper discusses the problem concerning light reflecting and refracting polarization and phase on the surface of the transparent medium by using the Fresnel formula.
由于光源激光为偏振光,通过菲涅耳公式计算可知,结构光和杂光也具有偏振性。
Since the laser light is polarized, so according to Fresnel equation, the structure light and stray light are both polarized but with different direction.
通过对菲涅耳公式的分析,找到一种新的简单直观的几何图示,能完整地给出菲涅耳公式的四个振幅比关系。
Though the analysis of the Fresmel formula, the builds a new simple and visual geometric illustration which can offer the amplitude ratio named Fresnel formula.
根据波动光学的理论,对菲涅耳近场衍射公式误差相位的影响进行了分析。
Brsed on the wave theory of optics, the affect caused by the phase error in Fresnel near-field diffraction equation is analysed.
使用基尔霍夫衍射积分公式和菲涅耳衍射积分公式对高斯光束通过方孔光阑的衍射进行了研究。
The diffraction of Gaussian beams at an square aperture is studied based on the Kirchhoff and Fresnel diffraction integrals.
从光的菲涅耳衍射、波前相位重构入手,对连续信号进行了离散化处理,给出了数值计算公式。
The formula of numerical computing is presented with discretion for Fresnel diffraction and phase numerical reconstruction of wave front.
采用菲涅耳衍射公式和傅里叶变换得出了输出面上的光场的理想计算公式。
The Fresnel diffraction formula and the Fourier transforms are used to get the intensity distribution formula.
从广义惠更斯-菲涅耳衍射积分出发,导出了洛伦兹光束通过一阶轴对称光学系统传输变换的解析公式。
Based on the generalized Huygens-Fresnel diffraction integral, the analytic propagation expressions for Lorentz beams passing through first-order axisymmetric optical system are derived.
本文基于菲涅耳衍射计算公式,给出了实现衍射逆运算的方法。
In this paper, we presented the method that implement inverse calculation of Fresnel diffraction.
本文应用几何光学知识对菲涅耳透镜的结构进行了详细的光学设计,推导出相关参数的计算公式。
In this paper, the structure and optical design principle of Fresnel lens is analyzed in detail. The Fresnel lens with the knowledge of geometrical optics is designed and the formula is derived.
基于南北向菲涅耳反射镜场,该文从分析入射太阳光线与反射镜单元跟踪轴线之间的夹角出发,导出了反射光线到达接收器时在南北向偏离的距离(即端部损失)的计算公式。
Based on a north-south mirror field, the equation for estimating the end losses was derived from analyzing the angle between incident sunlight and the tacking axis of a reflecting mirror.
模型中对声影区的声场分布采用惠更斯-菲涅耳原理进行推导计算,给出的理论计算公式可为推导计算其它复杂声源的衍射声提供借鉴。
In this model, the noise field in sound shadow region is deduced by applying Huygens-Fresnel principle. It provides a new ideal for deducing the diffraction sound of complicated…
模型中对声影区的声场分布采用惠更斯-菲涅耳原理进行推导计算,给出的理论计算公式可为推导计算其它复杂声源的衍射声提供借鉴。
In this model, the noise field in sound shadow region is deduced by applying Huygens-Fresnel principle. It provides a new ideal for deducing the diffraction sound of complicated…
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