Each microlens functions as a kind of superpixel.
每个微透镜都作为超级像素发挥其功能。
The microlens arrays are the important kind of micro-optics elements.
微透镜阵列就是其中一种重要的微光学元件。
Microlens: A term used by some manufacturers to describe their macro lenses.
微摄镜头:一些相机制造商用这个名词描述它的微距镜头。
The fabrication and characterization of gradient index planar microlens array is discussed.
讨论了自聚焦平面微透镜阵列的制作工艺及其基本特性。
Thiel says generating multiple light beams with a microlens array could make the process even faster.
泰尔表示产生多个光束的带有微透镜阵列可以使该过程甚至更快。
In the paper, ion-exchange technique fabrication method of planar intersect microlens arrays is given.
介绍了采用光刻离子交换工艺制作平面交叉型微透镜阵列的方法。
Pattern transfer technique is used to transfer photoresist microlens arrays into the polymer underlayer.
通过反应离子刻蚀可以将光刻胶微透镜图形转移至这种高性能的聚合物材料上。
Image load in device, light source, light source element, microlens and manufacturing method of microlens.
图像写入装置,光源,光源单元,微透镜以及微透镜的制造方法。
A large aperture laser beam scanning method by combining microlens arrays with rotating mirror is put forward.
提出微透镜阵列与转镜相结合的大口径激光光束扫描方法。
Hexagonal XF microlens: High speed non-ablative fractional resurfacing with the new XF (extra fast) microlens.
六角xf的微透镜:高速,非剥脱新的XF(多余快速)微透镜的分数重铺路面。
A new method of microlens focal length measurement by rotation method based on grating diffraction is introduced.
介绍了一种利用光栅的多缝衍射分光代替传统转角法的角度测量的微透镜焦距测量方法。
A method for manufacturing a light controlling structure, generally referred to as a microlens or microlens array.
一种用于制造光控制构件,即通常所指的微透镜或微透镜阵列的方法。
The results of this paper could provide references for the further study of microlens array and its industrialization.
本文的研究结果可为微透镜阵列的进一步研制及产业化提供参考。
In this paper, we develop a new method for fabricating holographic microlens array based on holographic reconstruction.
本文提出了利用全息再现的方法来制作全息微透镜列阵。
Fabrication process of polymer microlens arrays is introduced based on soft lithographic UV-molding replication method.
介绍了利用软刻蚀紫外模塑技术制作复制聚合物折射和衍射微透镜阵列的工艺过程。
The mechanics and the observing system for aligning and bonding microlens arrays with pinhole arrays are specially designed.
特别设计了微透镜阵列与针孔阵列对准粘接的机械和观察系统。
An optimized design and evaluation method for an aspherical microlens module was presented for the Intel Light Peak technology.
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。
It accomplishes that with a special sensor called a microlens array, which puts the equivalent of many lenses into a small space.
它通过一个被称为微光线阵列的特殊传感器来实现这一行为,微光线传感器将大量光线等价地装入一个很小的空间。
The results show that the technology of melting photoresist is a simple and practical technology of fabricating microlens array.
结果表明,光刻胶热熔技术是一种简单、实用的微透镜阵列制作技术。
Using the reaction of the crosslinking of ammonium dichromate gelatin after irradiation, a novel microlens array was fabricated.
根据重铬酸铵明胶在受光照后发生交联的原理,采用重铬酸铵明胶作材料制作了微透镜阵列。
Based on computer, laser modulation, fiber coupling and microlens focusing technology, fiber coupled laser diode array is researched.
采用计算机控制技术、激光器调制技术、光纤耦合技术、微透镜聚焦技术,研究了半导体激光器的线阵。
The effect of annealing time during the mold preparation process on the dimensions and shapes of the prepared microlens is investigated.
详细研究了模板制备过程中的退火时间对所得微透镜的尺寸及形状的影响。
Based on the diffraction optical principle, a formula of the diffraction efficiency and etching depth error of the microlens is obtained.
基于衍射光学原理,获得了微透镜的衍射效率与蚀刻深度误差之间的关系式。
Its practicality effective aperture ratio has been improved to about 92.8%, consequently the concentration efficiency of microlens array...
其实测有效孔径比可达到92.8%,极大提高了微透镜阵列的聚光效率。
The lithography technique to fabricate the curved microlens array on the curved substrate by using laser direct writing system was also given.
文中给出了用激光直写设备在曲面基底上进行光刻来制作曲面微透镜阵列的方法。
The microlens array and IR focal plane integrated chips are obtained in experiments. These chips have achieved good results in thermal imaging.
实验获得了微透镜列阵与红外焦平面集成芯片,并在热成像中取得了良好的结果。
Its practicality effective aperture ratio has been improved to about92.8% consequently the concentration efficiency of microlens array is increased.
其实测有效孔径比可达到92。8%极大提高了微透镜阵列的聚光效率。
Its practicality effective aperture ratio has been improved to about92.8%, consequently the concentration efficiency of microlens array is increased.
其实测有效孔径比可达到92.8%极大提高了微透镜阵列的聚光效率。
Its practicality effective aperture ratio has been improved to about92.8%, consequently the concentration efficiency of microlens array is increased.
其实测有效孔径比可达到92.8%极大提高了微透镜阵列的聚光效率。
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