此外,M -GRIN将使GRIN透镜的设计制造超越现有的光学应用范围。
In addition, providing the tools for manufacturable GRIN optics will expand the reach of GRIN lens design and fabrication methods beyond current optics application space.
探讨这种发散纤维透镜用作激光束变换元件的设计原理以及在望远镜式扩束型光学耦合系统中的应用。
The design principle of this defocusing fiber lens used as laser beam transforming device and application in an expanded beam coupling system are discussed.
通过一个大尺寸菲涅尔透镜的设计,比较了曲面菲涅尔透镜和平面菲涅尔透镜在光学像差方面的差异。
The optical aberration difference between the biconvex Fresenl lens and the plane-convex Fresenl lens was investigated by designing a large aperture Fresenl lens.
这种设计方法不仅对于单片轴向梯度折射率透镜,而且对于同时包括均匀介质元件的光学系统也是很方便的。
The use of the method is not limited to simple lenses with gradient indices. It can also be used conveniently in the design of systems having homogeneous-medium elements.
如何设计由全息透镜构成的光学系统用来实现所要求的变换,是当前应用光学的一个重要课题。
An important problem in applied optics is the design of an optical processing system composed of a series of holographic lenses for the purpose of realizing an arbitrary transformation.
针对将大发散角LED的光高效会聚到光纤接收端面的需求,提出了一种椭球面和聚光透镜组合光学系统设计的思路。
With large divergence Angle LED light efficiently converges at the optical fiber receiving end demand, an ellipsoid and focusing lens combination optical system design method is proposed.
阐述高精度激光准直系统的总体构成及特点,着重分析高斯激光束经过薄透镜的变换规律、最佳准直区域以及激光准直光学系统的设计思路。
The commutation rule and the optimal collimation area are analyzed when Gauss light beam passes thin lens, and the design principles of the collimator are given.
研究了柱面线聚焦菲涅耳太阳聚光透镜的光学设计和光学效率。
The optical design and optical efficiency of line focus cylindrical Fresnel lens for solar concentrator are discussed.
建立了一种大功率LED的封装结构,二次光学设计采用了微透镜阵列技术,运用光线追踪法研究了这种封装结构的光学性能。
A packaging structure of high-power LED was presented, microlens array was employed in the secondary optical design, optical properties of the package was studied using Trace pro.
对各种LED光源和光学会聚系统进行了对比测试,并对其聚光性能进行了分析,设计了一种全内反射透镜(TIR透镜)结构。
This paper comparably tests different LED light source and optical convergence system, analyzes the condensing performance and designs the structure of TIR lens.
使用薄膜沉积法制作16阶菲涅耳透镜,用它代替常规的光学透镜可实现系统的轻量化、小型化,并增加系统设计的自由度。
The thin film deposition is used to make 16 step Fresnel lens . It can implement system′s lightweight, miniaturization and increase free degree of the design.
利用原子散射因子数据,对常用X射线组合透镜材料在高能X射线波段的光学常数进行了计算,并分析了组合透镜设计中的材料选择问题。
With the data of atom scattering factors, optical constants of some useful material for X-ray compound lens in high-energy X-ray waveband were calculated.
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.
透镜表面完全采用非球面设计,较好地校正了球差等各种像差,使透镜具有良好的光学成像性能。
The profiles of the three lenses were designed as aspheric surfaces so as to correct the aberration and ensure the excellent optical performance.
利用ZEMAX光学设计软件模拟半导体激光光路,包括光束整形、准直及聚焦透镜的设计等。
The light paths of the diode laser was simulated by ZEMAX, including the designs of beam arrangement, collimation lens and focus units.
针对英特尔光峰技术提出了一种非球面微透镜模块的光学优化设计及评价方法。
An optimized design and evaluation method for an aspherical microlens module was presented for the Intel Light Peak technology.
使用薄膜沉积法制作1 6阶菲涅耳透镜,用它代替常规的光学透镜可实现系统的轻量化、小型化、增加系统设计的自由度。
We use the thin film deposition to make 16 step fresnel lens, which can obtains lightweight system, miniaturization and increases free degree of the design.
光学优化设计表明,具有正负透镜分离结构的色散物镜可以得到低的球差和大的轴向色散,而且具有较大的工作距离。
Optimized result indicates that the dispersive objective based on the proposed configuration has small longitudinal aberration, a large ACA, and a long working distance.
光学优化设计表明,具有正负透镜分离结构的色散物镜可以得到低的球差和大的轴向色散,而且具有较大的工作距离。
Optimized result indicates that the dispersive objective based on the proposed configuration has small longitudinal aberration, a large ACA, and a long working distance.
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