【摘 要】
:
Editorial for Focus Issue on Optical 3D Display and ImagingWith the impressive progress of flat panel display technologies, the three-dimensional (3D) display and imaging technologies have attracted much attention in recent years as they can provide ultim
【出 处】
:
ChineseOpticsLetters
论文部分内容阅读
Editorial for Focus Issue on Optical 3D Display and ImagingWith the impressive progress of flat panel display technologies, the three-dimensional (3D) display and imaging technologies have attracted much attention in recent years as they can provide ultimate realistic views to us. Hence we designed a focus issue intended to introduce recent optical researches in this field, especially the works by some distinguished research groups.This focus issue includes twenty-two invited papers, review papers, and contributed papers from China, South Korea, Japan, USA, UK, Israel, and Russian. We have classified the papers into four topics: 3D Holographic Display, Auto-stereography and Virtual Reality, Digital Holography, and Computer-generated Holography. It is hoped that this issue will bring the research community's attention to some of the latest development in the area.We want to thank the Executive Editor-in-Chief, Prof. Changhe Zhou, for inviting us to serve as this focus issue editors and Ms. Yanfang Hu for her valuable help in ensuring the timely production of this focus issue.
其他文献
报道了一篇关于“影响GaAs光激射器连续输出的参量”文章,文中指出影响激光输出的重要因素:晶体的完整程度,结平面与激光共振腔反射面之间互相垂直的程度,均匀的欧姆接触,和热传导速率等等。
基于矢量辐射传输理论,利用矩阵算法研究了海洋-大气耦合系统中,海雾气溶胶对太阳光的偏振散射特性。整个大气层垂直方向分为若干平面平行层,考虑了大气分子、云层以及气溶胶的垂直分布;海洋表面按照风驱随机粗糙海面进行了分析,考虑了海洋波斜率分布和遮蔽效应;海洋体也由若干平面平行层构成,考虑了海水以及叶绿素的吸收和散射影响。大气和海洋体每层的反射矩阵和透射矩阵以及源函数由离散坐标方法计算,整个海-气系统的散射特性由矩阵方法通过耦合层与层之间相互辐射得到。研究了整个海-气系统反射的太阳辐射以及偏振度对太阳光的波长、入
图像采集是机器视觉系统的基础。因为获取相应质量的图像,是对图像进行处理与分析的前提。该文是《机器视觉机器应用》系列讲座中第二部分,重点讨论了采像4个环节的内容、核心、以及对采集到的图像质量的影响。并分别讨论了光源、光学系统(镜头)、CCD摄像机、CMOS摄像机、图像采集卡以及特殊或最新的图像采集技术与产品。
High-temperature annealing and pre-annealing lift-off procedures are employed to improve the solution processible technique for the fabrication of one- (1D) and two-dimensional (2D) metallic photonic crystals (MPCs) based on colloidal gold nanoparticles.
To resolve the conflict of large measurement range and high accuracy in the existing real-time laser diode (LD) interferometers for displacement measurement, a novel real-time LD interferometry for displacement measurement is proposed and its measurement
Core-diameter adjustment, in analogy to doping management, is proposed in this letter for balancing thermal load and nonlinear effects. In this scheme, the core-to-cladding ratio increases with increasing core diameter along the direction of signal and pu
研制了一种高均匀性、小型化的法拉第磁光隔离器,用于780 nm波长的光路中,并对设计方案进行了数值模拟和验证。采用了新颖的三段式“π”形磁体的组合设计方案, 提高了剩磁利用率。隔离器整体体积为52 cm3,其中磁体体积为18 cm3,是相当小的。它的通光孔径为5 mm,隔离比为34.6 dB,透过率为90.9%。与之类似的 “II”型磁体体积更小,磁场均匀性稍差,也是可行的设计方案。成品隔离器比商用隔离器磁场均匀度更高,体积更小,隔离比更高,可以有效满足研发中的冷原子平台的 小型化、高精度需求。