The intensity uniformization of Gaussian beam is desired for many applications.
高斯光束均匀化是许多应用所要求的。
The lens coupling of Gaussian beam between optical fibers is a common technique.
高斯光束在光纤间的透镜耦合是耦合方式中较为常用的一种。
Gaussian beam is the asymptotic solution of wave equation concentred at the central ray.
高斯束是波动方程在特定射线附近的高频渐近解。
Impact Analysis of Gaussian Beam on Measurement of Single Crystal Silicon Sphere Diameter.
高斯光束对标准硅球直径测量的影响分析。
Gaussian beam propagation through a kind of parabolic divergent GRIN rod lenses is studied.
本文研究一类抛物型发散梯度折射率棒透镜中高斯光束的传播。
The focusing characteristics of Gaussian beam through the List microscope objective is analyzed.
本文分析了高斯光束经里斯特显微物镜的聚焦特性。
A simple needle scanning method for measuring the diameter of laser Gaussian beam is introduced.
本文介绍一种利用金属丝在高斯光场中的横向扫描测量激光束直经的简捷方法。
Utilizing a new truncated gaussian beam, maximum smoothness and minimal thermal effect are the goals.
最终的目标是利用一种新的缩短了的高斯电波,最平滑和最少热效应。
The profile of transmitted Gaussian beam varies with the change of incident angle and air-gap thickness.
且透射高斯光束的形状也随光的入射角以及空气隙厚度的改变发生变化;
Gaussian beam (GB) method is a high-frequency asymptotic method of computing wave-fields in inhomogenous media.
高斯射线束(GB)方法是一种用于计算不均匀介质中波场的高频近似方法。
Gaussian beam method is essentially a seismic forward modeling method that combines wave equation and ray theory.
高斯射线束方法是将波动方程和射线理论相结合的一种地震正演模型方法。
Gaussian beam propagation through complicated optical systems is studied in detail by using matrix optics method.
使用矩阵光学技巧和方法详细研究了高斯光束通过复杂光学系统的传插问题。
The focusing characteristics of Gaussian beam passing through the maladjusted telescope optic system are studied.
研究了高斯激光经过失调望远镜系统聚焦的特点。
A convenient method of transforming thin laser Gaussian beam into line beam by a single spherical lens is reported.
报道一种用单片球面透镜将细激光束变换为线光束的简便方法。
With the intensity distribution function of Gaussian beam, the lateral and axial resolution expressions were deduced.
结合高斯光束的强度分布函数,推导了横向与轴向分辨率的表达式。
The paper introduces a new method for measuring the radial intensity distribution and the diameter of the Gaussian beam.
本文提出了一种测量高斯激光束径向强度分布及束径的新方法。
Furthermore, the conditions have been given that Gaussian beam is a paraxial approximation solution of the wave equation.
进一步指出了高斯光束作为波动方程傍轴近似解的条件。
Thecoherent scattering of Gaussian beam by arbitrarily shaped convex dielectric object with rough surface is investigated.
研究了任意形状凸粗糙物体对高斯光束的相干散射特性。
The generalization of an elliptical Gaussian beam is presented by introducing a complex shift in the transverse coordinates.
在椭圆高斯光束横坐标中引入复数偏移量,将其推广为偏心椭圆高斯光束。
The influence of atmospheric turbulence on partially coherent flat-topped Gaussian beam is studied numerically in this paper.
本文用数值模拟的方法研究了湍流对通过其后的部分相干平顶高斯光束的影响。
The energy distribution of far field spot for annular aperture Gaussian beam is discussed and the fitting expression is given.
讨论环形孔径高斯光束的远场光斑能量分布,并给出拟合表达式。
This phenomenon can be explained by the spatial self-phase modulation of the Gaussian beam passing through the nonlinear medium.
该现象可以用高斯光束通过介质时产生的空间自相位调制解释。
The Gaussian ray bundle is similar to Gaussian beam, except that it uses a simpler method to arrive at the width of the Gaussian.
高斯射线束方法相对于高斯波束方法的改进在于它使用了一个简单的经验公式来计算声束宽度。
In this paper, it is analyzed the propagation of a Gaussian beam in fiber media with ray tracing under the paraxial approximation.
利用光线追踪方法在近轴近似下模拟了高斯光束在不同折射率分布纤维状介质中的传播。
We adopted Gaussian beam, ray tracing and vector diffraction integration together to analyze single beam spot-focusing lens antenna.
本文采用将高斯波束法,射线追迹和矢量衍射积分相结合的方法来分析单波束的点聚焦透镜天线。
The lens transformation formula was made more simply and intuitionistic importing Newtonian formula to Gaussian beam transformation.
在高斯光束变换中引入牛顿公式,使透镜变换公式更加简洁、直观。
Based on complex ray method, a paraxial approximation analysis of Gaussian beam transmission through a dielectric radome is presented.
本文根据复射线法对通过介质天线罩的高斯波束场进行近轴近似分析。
The conceptions of conjugation, exchange and inverse evolve point pair are used to explain the transformation properties of Gaussian beam.
并利用共轭、互易、反演点对变换方法图解高斯光束传输变换特性。
On the basis of approximate effect, the calculation formula of temperature field with elliptic Gaussian beam radiation has been deduced and widely applied.
基于这种近似,人们导出了椭圆高斯光束辐照温度场计算公式,并获得广泛应用。
Our calculations show that the Bessel-Gauss beam can be produced in the focused plane of the ring apertured Gaussian beam, this method is efficient and simple.
本文通过计算指出环状分布的光束经透镜后可在焦平面产生适用于激光打孔的贝塞尔·高斯光束,这是一种高效、简单实用的方法。
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