菲涅耳公式

单轴晶体上菲涅耳公式在一种特殊情况下的形式

Expressions of Fresnel formula for uniaxial crystal in a particular case

菲涅耳公式中位相突变的人为性

Research of artifact of phase abrupt change in accordance with Fresnel formula

利用矩阵法，根据菲涅耳公式和电磁场边界条件，推导出p，s波的相移。

In terms of Fresnel formulas and boundary conditions of electromagnetic field , the phase shift between p - and s-polarization was deduced with methods of matrix .

同时讨论了菲涅耳公式中当λz→0时的极限情况及其物理意义。

The limit of Fresnel diffraction formula when λ z → 0 and its physical meanings are also discussed .

根据菲涅耳公式推导出X射线和可见光的反射率公式，计算了反射率随入射角的变化曲线。

Based on the Fresnel law , the reflectivity of X-ray and visible light are obtained , and the reflectivity-incident angle curves are drawn .

介质表面运动时的菲涅耳公式

Fresnel formulas of a medium surface in motion

菲涅耳公式的几何图示与应用

The geometric illustration and application of Fresnel formula

各向异性介质中的菲涅耳公式及应用

Fresnel formulas for anisotropic medium and application

光轴任意取向的单轴晶体薄膜间的菲涅耳公式

The fresnel formula between uniaxial crystal thin film which direction of optical axis is discretional

关于临界角法菲涅耳公式简化理论处理的新方法

The new method of a simplified processes f Fresnel formula for the method of critical angle

从菲涅耳公式出发解释了“薄膜干涉”中的半波损失问题。

Furthermore , the half-wave loss exsisted in thin-film interference was explained with the Fresnel 's formula .

其基本原理源于菲涅耳公式和布儒斯特定律。

The basic principle of this measurement comes from the Fresnel formula and Brewster ′ s law .

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 .

研制一种用于测量偏振光反射、折射光强及偏振方向变化的实验装置，并用来研究菲涅耳公式。

An experimental apparatus is designed for measuring the reflection and refraction intensity of a polarized light and for measuring the change of the polarized direction .

根据电磁场的边值关系，导出了不同于菲涅耳公式的晶体界面光振幅的关系，提出了晶体锥光干涉中两相干光的位相差和振幅的计算方法。

According to the boundary conditions of the electromagnetic field , relation of electric field amplitude on crystal interface has been deduced , which differs from Fresnel formula .

是格里菲斯·乔依娜在印地安纳波利斯创下的。利用菲涅耳公式计算了棱镜非线性光波导耦合。

Griffith Joyner set it at Indianapolis in 1988 . The bistable bahavior originating from optical nonlinear coupling between a prism and a nonlinear waveguide by using Fresnel formulas is described .

应用菲涅耳公式对自然光入射时反射及折射光的偏振态与入射角之关系进行了讨论。

In this paper , when incident light is unpolarized , the relation between the polarized states of the reflected and the refracted light and the angles of incidence is discussed in detail by Fresnel formula .

用菲涅耳公式计算出在水窗波段内不同材料组合对应不同波长的最大反射率，模拟分析了多层膜周期和表界面粗糙度对多层膜偏振光学元件性能的影响。

With Fresnel formula , the maximum reflectivity is calculated for different materials at corresponding wavelength in water window , the influence of the multilayers ' periods and surface roughness on the element performance is analysed .

利用各向异性单轴晶体光轴位于入射面内的“菲涅耳公式”计算了光通过尼科耳棱镜各界面时光强的透射率、反射率，并指出了某文献在这方面的失误。

Using the corresponding Fresnel formula of anisotropic uniaxial crystal the transmissivity and reflectivity is calculated when the light passes the interface of Nicol prism , the shortcoming of a paper elsewhere is also pointed out in this aspect .

用菲涅耳公式分析光矢量经反射、折射时所发生的突变，剖析各种类型薄膜干涉中额外程差的选取、以及这种突变对薄膜干涉条纹衬比度所产生的影响。

The mutations on reflection and refraction with the Fresnel formula is analyzed , the selecting extra path difference of every type film interference and the influencing the contrast of fringes of the film interference for the mutations is dissected .

你能用玻璃制的棱镜分解一束非相干光。利用菲涅耳公式计算了棱镜非线性光波导耦合。

You can break up a beam of incoherent light with a prism , which is made of glass . The bistable bahavior originating from optical nonlinear coupling between a prism and a nonlinear waveguide by using Fresnel formulas is described .

从菲涅耳公式出发说明光发生全反射时也存在透射光&倏逝波，并导出透射光的波动方程，说明了它的一些性质。

By Fresnel ′ s formula , this paper proved that the transmission light evanescent wave was also existed when the total reflection of light occured , deduced the wave equation of transmission light , and gave some characteristics of evanescent wave .

菲涅耳反射公式及反射光与入射光的位相关系

Fresnel 's Law and Phase Relationship Between Reflected and Incident Light

菲涅耳衍射公式误差相位的讨论

The discussion of phase error in diffraction equation

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 .

在同相模和异相模近场分布的基础上，利用1维情况下的菲涅耳衍射公式计算了其远场分布。

Far field distributions of in-phase mode and out-of-phase mode were calculated using Fresnel diffraction formula of one-dimension on the basis of near field amplitude distribution .

基于惠更斯-菲涅耳衍射积分公式，研究了宽带光束在菲涅耳衍射区的自由空间传输特性，得到宽带光束传输的调制深度与光束带宽Δλ及菲涅耳数F的变化关系。

The free space propagation property of broadband laser beam in Fresnel diffraction area is studied based on Huygens-Fresnel diffraction integral . The relationship between modulation depth , bandwidth Δλ and Fresnel number is obtained .

并且由此考察了一般的菲涅耳数计算公式的使用条件。

The application condition of general Fresnel number formula is also studied .

菲涅耳积分计算公式及其应用

The Calculating Formulas of the Fresnel Integral and Its Application