Gray scale mask method is a novel way of fabricating binary optical elements.
灰度掩模法是一种新的二元光学器件制做方法。
A novel approach by using binary optical elements (BOE) of 3d measurement is presented.
提出了采用二元光学元件(BOE)进行三维形貌测量的新方法。
Optical Beam Shaping; Binary Optical Elements; Artificial Fish-swarm Algorithm; Optical Design; ZEMAX.
激光波前整形;二元光学元件;人工鱼群算法;光学设计;zemax。
Laser lithography is one of the main methods for manufacturing micro-optical and the binary optical masks.
激光光刻是加工微光学及二元光学掩模的主要手段。
Some binary optical elements were manufactured by parallel direct writing and inductive couple plasma etching technology.
利用并行直写技术与感应耦合等离子刻蚀技术制作了部分二元光学元件。
A novel binary optical element, which has the functions of filtering, beam-splitting and imaging, is designed and fabricated.
本文利用微光学技术设计并研制了一种同时具有滤波、分束和成象功能的二元光学全互连器件。
The introduction of binary optical elements, theory of diffractive lenses, fabrication of binary optical elements and trends are related.
本文介绍了二元光学元件的概况,衍射透镜理论,二元光学元件的制造方法以及发展趋势。
The designed system benefits from the specialities of binary optical elements and approaches diffraction limitation by use of only two germanium lenses.
借助于二元光学器件的独特性质,系统在仅使用两片锗透镜的情况下得到了接近衍射极限的光学质量。
A rigorous vector grating analysis approach BKK approach, which can be used to analyze the big caliber and big view binary optical system, is introduced.
详细地介绍了一种可用于分析大口径大视场二元光学系统的光栅矢量分析法BKK方法。
CGH element is designed and fabricated based on the computer generated hologram and the binary optical technique, and is applied in wavefront transformation.
运用计算全息原理与二元光学技术设计制作了用于波面变换的计算全息cgh元件。
Based on HIO algorithm, binary optical elements for spatial beam shaping are designed. For Gaussian beams, the shaping result is put forward through two different ways.
基于HIO算法,设计了用于光束整形的二元光学元件,从两条不同的途径给出了高斯光束的整形结果。
A new collimating method for semiconductor laser array using binary optical elements is described in the paper and a binary beam collimator is designed and manufactured.
阐述了二元光学元件用于半导体激光器列阵准直的新方法,并设计制作了二元光学准直器。
Compared with the technology for binary optical mask, the technology has the following strong points: process simplification, short period of fabrication and easy operation.
与二元光学元件掩模的制作工艺相比,该技术具有工艺简单、制作周期短且易于操作的优点。
The common fabrication technologies of binary optical elements were expatiated, including etching, thin-film deposition, direct writing, excimer laser projection and gray-scale masks.
综述了二元光学元件的常用制作工艺技术,包括台阶刻蚀法、薄膜沉积法、直接写入法、准分子激光加工法和灰阶掩模法。
A real time optical logic processor is presented, that can perform binary logic operations in parallel. Experimental result is given of the system as a half adder.
本文提出了一种能实时完成二进制逻辑运算的光学并行处理系统,并给出了作为半加法器的实验结果。
It has been established that third order NLO susceptibility of binary oxide glasses increases with decreasing optical electronegativity.
已确定的三阶非线性光学易感性的二元氧化物玻璃的增加与减少光学电。
Thirdly, we quantify the power penalty caused by the PMD in optical subcarrier multiplexing (OSCM) system with amplitude shift keying (ASK) and binary phase shift keying (BPSK).
第三,对采用不同调制格式(包括幅移键控和二进制相移键控)的光副载波复用(OSCM)系统中,PMD引起的功率代价进行了量化。
A card on which binary coded data are recorded with recording density larger than a punched card. The recorded data can be readout by optical or magnetic readers.
一种二进制编码数据卡片,其记录密度大于穿孔卡片。所记录的数据可由光学或磁学读卡机读出。
For realizing symbolic substitution rules of binary addition. This paper proposes a simple optical logic system which includes only one 2-d array of optical bistable device.
为了实现二进制加法符号替换规律,本文提出了一种简单的光逻辑系统,它仅包括一片二维列阵光学双稳器件。
The calculated results show that the binary lens has practical application value in field flattening optical system.
计算结果表明,二元透镜在平场光学系统中具有实用价值。
This paper deals with a optical method of edge enhancement of the binary image using the step filter.
介绍利用阶跃滤波器实现二值图像边缘增强的光学方法。
A binary Fresnel lens with 8 phase steps can be manufactured with micro-optical element fabricating technology and three times of alignment according to Fresnel diffraction theory.
根据菲涅耳衍射理论,采用微光学元件制作技术,通过三次套刻制作出八位相台阶的二元离轴菲涅耳透镜。
We try to exploit the advantages of TOAD-based optical switch to design an integrated all-optical circuit which can perform binary addition and subtraction.
研究了怎样利用基于TOAD的光开关来设计全光集成电路,从而进行二进制加减法运算。
We try to exploit the advantages of TOAD-based optical switch to design an integrated all-optical circuit which can perform binary addition and subtraction.
研究了怎样利用基于TOAD的光开关来设计全光集成电路,从而进行二进制加减法运算。
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