明基第Ⅲ代黄金色轮技术问世

日前，作为DLP投影机的研发主力，明基推出了第Ⅲ代黄金色轮技术。它糅合了明基最新的软硬件技术，能获取比第Ⅱ代黄金色轮技术更宽广的色域与丰富的色阶，除了色彩还原能力得到更大提升之外，其图像处理能力更比一般色轮技术提高4倍,     

虚拟演播室技术

介绍了虚拟演播室的原理、实现技术、新技术、新特点、运作方法.     

用于单芯片系统的改进型WXGA LCoS成像器

本文讨论用于单芯片时序混色的菲利浦DD-720硅基液晶(LCoS)片。这种芯片主要用于HDTV背投影机和多媒体系统。与菲利浦以前的单片LCoS设计相比，由于该芯片具有电接口接点较少、封装简单和温度传感器内置等许多特点，使其应用于投影系统时成本降低。     

国色天香 26万色国产手机特辑

人的声色欲望似乎总是无止境的，从手机彩屏化开始，短短一年多的时间里，屏幕显示色数从256色一路攀升，直到2003年，65536色成为最广泛使用的屏幕参数。而第二季度又开始了飞跃性的26万色，随后26万色彩屏手机如雨后春笋般在市场上出现，速度之快让人目不暇接，而国产的手机产品，在显示参数上也与国外最先进的产品站到了同一级别。     

场顺序彩色显示器

荫罩CRT受自身结构的限制,要进一步改进其分辨率就有很大的困难。近年已研制成一种获得彩色图像的颇有吸引力的替代品,即场顺序彩色显示器。它由单色CRT和液晶电子色闸组成,称之为LC/CRT系统。液晶电子色闸由液晶π盒及其连用的偏振片组成,可看成是老式机械彩色轮那样的一种电控色带带通滤色片。本文描述了液晶电子色闸的功能及其工作优点,讨论了其可能结构与显示特性。     

V型三能级原子与非经典光场作用中光场特性的变化

研究了V型三能级原子BEC与双模压缩光场相互作用系统中,忽略原子间相互作用和考虑原子间相互作用时光场的正交压缩和光子数压缩。结果表明,光场的正交压缩依赖于压缩参数,而光子数压缩与压缩参数、光场信号强度有关,在一定条件下,两种压缩可同时存在。原子间相互作用影响两种压缩的涨落随时间变化的周期,以及正交分量涨落随时间变化的幅度,而对光子数压缩涨落随时间变化的幅度几乎无影响。     

硬X射线磁圆二色实验方法的建立

在北京同步辐射装置(BSRF)1W1B光束线和XAFS实验站上国内首次建立了硬X射线波段的磁圆二色实验(XMCD)方法. 以单晶金刚石作为相位延迟片, 在透射劳埃(Laue)模式下, 利用衍射双折射效应, 将入射的单色线偏振光转变为相应的左旋和右旋圆偏振光, 测量磁化样品对左旋和右旋圆偏振光吸收的差异, 获得了XMCD信号. 本实验使用透射方法测量了Pt-Fe合金Pt L_2,3边的XMCD, 获得了XMCD信号. XMCD实验方法的建立, 为研究磁性材料尤其是磁性薄膜材料的电子结构和磁结构提供了实验基础.     

Nonlinear Effects for Bose Einstein Condensates in Optical Lattices

Cold atoms and, more recently, Bose-Einstein condensates （BEC＇s） in optical lattices have attracted increasing interest since their first realization. In particular, the formal similarity between the wavefunction of a BEC inside the periodic potential of an optical lattice and of the electrons in a crystal lattice has triggered theoretical and experimental efforts alike. Many phenomena from condensed matter physics, such as Bloch oscillations and Landau-Zener tunneling have been shown to be observable also in optical lattices. An important difference between electrons in a crystal lattice and a BEC inside the periodic potential of an optical lattice is the strength of the self interaction and hence the magnitude of the nonlinearity of the system. Electrons in a metal are almost noninteracting, whereas atoms inside a BEC interact strongly. A＇ perturbation approach is appropriate in the former case while in the latter the full nonlinearity must be taken into account. From this feature new physics is expected. Most experiments to date have been carried out in the regime of shallow lattice depth, for which the system is well described by the mean field Gross-Pitaevskii equation with a periodic potential. Moreover, the nonlinearity induced by the mean-field of the condensate has been shown, both theoretically and experimentally, to give rise to instabilities in certain regions of the Brillouin zone. These instabilities are not present in the corresponding linear system, i.e. the electron system. Experimental and theoretical results on the subject of nonlinear Landau-Zener tunneling and nonlinearity-induced instabilities in a Bose-Einstein condensate interacting with an external periodic potential will be presented.