1) intensity distribution
光强分布
1.
A method to resolve the intensity distribution of diffraction by blazed grating;
闪耀光栅光强分布的一种求解方法
2.
Intensity distributions and focal shifts of converging Hermite-cosh-Gaussian beams;
会聚厄米-双曲余弦高斯光束的光强分布和焦移
3.
Atmosphere on beam intensity distribution of far-field laser in ship-borne laser communication
舰载激光通信中大气对激光远场光强分布的影响
2) light intensity distribution
光强分布
1.
Effect of optical structure on output light intensity distribution in LED package;
LED封装光学结构对光强分布的影响
2.
Fraunhofer diffraction light intensity distribution of the equiangular trapezoid;
等腰梯形小孔的夫琅和费衍射光强分布
3) light distribution
光强分布
1.
Young’s two slits interference of discrete double light source is numerically simulated,and the curve of visibility, curve of light distribution and interference pattern are solved with different type of line and line width.
对分立双谱线光源的杨氏双缝干涉进行模拟,求解出不同线型和线宽时干涉条纹的可见度曲线、光强分布曲线和干涉图样,用直观的计算机图形说明了分立双谱线的线型和线宽对干涉条纹的影响。
2.
The light distribution of pointolite, interference fringe and its characters are discussed by theory of interference of light on the condition of plate thickness being non uniform.
运用光的干涉理论 ,分别讨论了点光源在平板厚度不均匀情况下的光强分布、条纹及特征 ,分析了多光束干涉对光强分布和条纹的影响 ,并推导出测量平板楔角的一种新方法 。
4) optical intensity distribution
光强分布
1.
Staring from Fresnel diffraction integral,we deduced the optical intensity distribution in the Fresnel zone of the diffraction field of the annular-aperture lens axicon.
从菲涅耳衍射积分公式出发,推导多色高斯光束被球差透镜衍射后光强分布的解析公式,进行数值模拟和物理分析。
2.
This article makes theoretical analysis on the relationship and distinction between Bessel and Bessel-Gauss beams,the optical intensity distribution at any propagation plane of ideal Bessel beam and the Bessel-Gauss beam,and the effect of the beam waist and the cavity length L on the Bessel-Gauss beam were simulated.
理论分析Bessel光束和Bessel-Gauss光束的相互联系及区别,数值模拟理想Bessel光束和Bessel-Gauss光束在任意平面的径向光强分布,以及光腰半径和谐振腔腔长对输出Bessel-Gauss光束的影响。
6) surface of intensity distribution
光强分布图
补充资料:强脉冲光
强脉冲光|英语解释:EllipseFLEX IntensePulsedLight,简称IPL。是经滤过和多光谱的,可发射的谱段范围为430-1200nm,其输出的波段中较短波长用于治疗血管性病变和色素性病变,而较长的波段可以实现皮肤的"返老还童"(光子嫩肤)的过程。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条