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    • 1. 发明申请
    • OPTICAL MEMORY
    • 光学记忆
    • WO1993016476A1
    • 1993-08-19
    • PCT/SE1993000126
    • 1993-02-17
    • TOTH, PeterJOZSEF, Karoly
    • G11C11/22
    • G11C11/56G11B11/00G11C7/005G11C13/04G11C13/047
    • The invention relates to a read-write optical memory comprising a plurality of juxtaposed memory cells (11), each receiving a respective light beam (3). Each memory cell contains a storage medium (10), which includes a storage element (23) having stable optical states. The storage element (23) is divided into a number of memory points, and the optical state in a given memory point can be both changed and read by means of a light beam (3) directed towards the memory point. The memory can be implemented entirely without any movable mechanical parts and has a very short read-write time and an exceptionally high storage capacity. Parallel writing and reading of multibit words is possible.
    • 本发明涉及一种读写光学存储器,包括多个并置存储单元(11),每个存储单元接收相应的光束(3)。 每个存储单元包含存储介质(10),其包括具有稳定的光学状态的存储元件(23)。 存储元件(23)被分成多个存储点,并且给定存储点中的光学状态可以通过朝向存储点的光束(3)来改变和读取。 存储器可以完全实现,没有任何可移动的机械部件,并且具有非常短的读写时间和非常高的存储容量。 并行写和读多字可能。
    • 2. 发明申请
    • FABRICATION METHOD OF MULTI-CORE FIBER BRAGG GRATING PROBE USED FOR MEASURING STRUCTURES OF A MICRO PART BASED ON THE CAPILLARY SELF-ASSEMBLE TECHNIQUE
    • 用于测量基于毛细自组装技术的微型部件结构的多芯光纤布拉格光栅探头的制造方法
    • WO2016138853A1
    • 2016-09-09
    • PCT/CN2016/075270
    • 2016-03-02
    • HARBIN INSTITUTE OF TECHNOLOGY
    • CUI, JiwenFENG, KunpengDANG, HongZHAO, ShiyuanLI, JunyingTAN, Jiubin
    • G01B11/00
    • G02B6/02209G01B11/18G02B6/02123G02B6/02185G02B6/04G11B11/00
    • A fabrication method of the multi-core fiber Bragg grating (FBG) probe for measuring structures of a micro part based on the capillary self-assembly technique, wherein the diameter of the fiber (6) inscribed with FBG is reduced using a mechanical method or an etch method by the hydrofluoric acid; the fibers(6) inscribed with FBG, whose diameter has been reduced, are inserted into a tube(7) through its terminal with an inner taper angle; the FBG terminals of these fibers (6) are immersed into the UV adhesive (10) of a low viscosity and the UV adhesive (10) is raised in the gaps between the fibers (6); or the UV adhesive is dropped on the these fibers (6) and the capillary bridge between the fibers (6) is formed; a most compact structure of the fiber bundle is formed as a result of the capillary self-assembly; the fiber bundle is cured using a UV light and the multi-core FBG (11) is therefore formed; the terminal of the multi-core FBG (11) is polished with an optic fiber polishing machine and then a spherical tip is fabricated with the melting fiber method or the installation method of a micro ball; therefore, a multi-core FBG (11) probe can be achieved. The method features low crosstalk between signal of FBG, inexpensive and low insertion loss.
    • 用于基于毛细管自组装技术测量微型部件的结构的多芯光纤Bragg光栅(FBG)探针的制造方法,其中使用FBG内接的光纤(6)的直径使用机械方法或 氢氟酸的蚀刻方法; 内径为FBG的纤维(6)的直径已经减小,通过其端子以内锥角插入管(7)中; 将这些纤维(6)的FBG端子浸入低粘度的UV粘合剂(10)中,并且UV粘合剂(10)在纤维(6)之间的间隙中升高; 或者UV粘合剂落在这些纤维(6)上,形成纤维(6)之间的毛细管桥; 作为毛细管自组装的结果形成纤维束的最紧凑的结构; 使用UV光固化纤维束,因此形成多芯FBG(11); 用光纤抛光机对多芯FBG(11)的端子进行抛光,然后用熔融纤维法或微球的安装方法制造球形末端; 因此,可以实现多核FBG(11)探针。 该方法具有FBG信号之间的低串扰,廉价且低插入损耗。
    • 3. 发明申请
    • SYSTEM FOR ELECTRONIC DATA STORAGE
    • 电子数据存储系统
    • WO2004079734A1
    • 2004-09-16
    • PCT/SE2004/000026
    • 2004-01-14
    • NILSSON MATERIALS ABMALMQVIST, FredrikWIKSTRÖM, Bo
    • MALMQVIST, FredrikWIKSTRÖM, Bo
    • G11B9/10
    • B82Y10/00G11B9/00G11B9/10G11B11/00G11B11/005G11C13/02
    • Device for storage of electronic data on a substrate, wherein a material provided in one or several layers on the substrate is changed chemically or physically on specified areas by means of electron bombardment from one or several electron guns at the same time as the material is exposed, or recently has been exposed, to an electromagnetic field from one or more electromagnetic sources on one or more areas which are at least as large as the area which is exposed by the electron guns. The electromagnetic field has a power which is large enough such that the total energy of change, in the area which the electron beam is set to affect physically or chemically, becomes high enough for affecting the material. The chemically or physically changed areas represent a binary 0 or 1, whereas non-modified areas which are connected to the modified area represent the opposite binary number.
    • 用于将电子数据存储在基板上的装置,其中通过在一个或多个电子枪上的电子轰击,在材料暴露的同时,通过在特定区域上以一层或几层形式提供的材料被改变 或最近暴露于一个或多个电磁源上的一个或多个电磁场,该电磁源至少与电子枪暴露的区域一样大。 电磁场具有足够大的功率,使得在电子束被设置为物理或化学影响的区域中的总变化能量变得足够高以影响材料。 化学或物理变化的区域表示二进制0或1,而连接到修改区域的未修改区域表示相反的二进制数。