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    • 1. 发明授权
    • Optical waveguide image transmission system and method
    • 光波导图像传输系统及方法
    • US5469519A
    • 1995-11-21
    • US13288
    • 1993-02-04
    • David B. ChangVictor ValiI-Fu Shih
    • David B. ChangVictor ValiI-Fu Shih
    • G02B6/06G02B27/46G02B6/32
    • G02B27/46G02B6/06
    • An improved image transmission system which includes an elongate optical waveguide 15 having an input aperture 17 and an output aperture 19. Optical apparatus 11, 13 is provided for injecting a transform of an image into the waveguide. In a specific implementation, the Fourier transform of the image is injected at the input aperture 17. The output image is transformed as well to provide the desired image. When the Fourier components of the image are transmitted, each component propagates at a different velocity. However, the magnitude of the components are preserved and used to reconstruct the image at the output of the waveguide. This allows for the transmission of optical images without digitization with a single, inexpensive waveguide.
    • 一种改进的图像传输系统,其包括具有输入孔17和输出孔19的细长光波导15.光学装置11,13被设置用于将图像的变换注入到波导中。 在具体实现中,图像的傅里叶变换在输入孔17处被注入。输出图像也被变换以提供期望的图像。 当传输图像的傅立叶分量时,每个分量以不同的速度传播。 然而,分量的大小被保留并用于在波导的输出处重建图像。 这允许用单个廉价的波导传输光学图像而不进行数字化。
    • 2. 发明授权
    • Noncontact, on-line determination of phosphate layer thickness and
composition of a phosphate coated surface
    • 非接触式,在线测定磷酸盐层厚度和磷酸盐涂层表面的组成
    • US5289266A
    • 1994-02-22
    • US885066
    • 1992-05-14
    • I-Fu ShihDavid B. ChangVictor Vali
    • I-Fu ShihDavid B. ChangVictor Vali
    • G01B11/06G01N21/31G01N21/55G01N21/84G01B11/02
    • G01N21/8422G01B11/0616G01N2021/8427G01N21/314G01N21/55
    • A nondestructive method and apparatus is disclosed for determining the thickness and composition of a zinc phosphate layer applied to a metal surface, such as sheet metal on an automotive assembly line. The phosphate layer is irradiated with infrared light which is at least partially transmitted through the phosphate layer. Reflections from the upper and lower surfaces of the phosphate layer return a total reflected intensity which is a function of the optical parameters of the phosphate components and the ratio of the components corresponding to the optical parameters. In the event, for example, that a phosphate layer includes two zinc phosphate components, the measure of reflected intensity at two separate wavelengths will be different inasmuch as the optical properties of the zinc phosphate components is also a function of frequency. The measured reflected intensity and its functional dependence upon the ratio of the components within the phosphate layer can be taken together with the known values of the optical parameters of each component to compute the fraction of each component within the phosphate layer.
    • 公开了用于确定施加到金属表面的磷酸锌层(例如汽车装配线上的金属板)的厚度和组成的非破坏性方法和装置。 用至少部分透过磷酸盐层的红外光照射磷酸盐层。 从磷酸盐层的上表面和下表面的反射返回总反射强度,其是磷酸盐组分的光学参数和对应于光学参数的组分的比率的函数。 在例如磷酸盐层包含两种磷酸锌成分的情况下,由于磷酸锌成分的光学特性也是频率的函数,所以在两个分开的波长处的反射强度的测量将是不同的。 测量的反射强度及其对磷酸盐层中组分比例的功能依赖性可以与每个组分的光学参数的已知值一起计算,以计算磷酸盐层内每个组分的分数。
    • 6. 发明授权
    • Optical fiber having internal partial mirrors and interferometer using
same
    • 具有内部部分反射镜和使用其的干涉仪的光纤
    • US5361383A
    • 1994-11-01
    • US783798
    • 1991-11-30
    • David B. ChangVictor Vali
    • David B. ChangVictor Vali
    • G02B6/28G01B9/02G02B6/00G02B6/26
    • G02B6/02052
    • An optical fiber disposed to partially internally reflect optical energy passing therethrough is disclosed herein. The optical fiber 10 of the present invention includes an internal partial mirror disposed to partially transmit and to partially reflect optical energy incident thereon. The internal mirror is effectively realized at an interface I of first and second fiber segments 14 and 18. The first fiber segment 14 includes a first core region 22 which circumscribes a longitudinal axis X. The first core region 22 is of a first cross-sectional area perpendicular to the longitudinal axis X. The inventive fiber 10 further includes a second fiber segment 18 in optical communication with the first fiber segment 14. The second fiber segment 18 includes a second core region 24 which circumscribes the longitudinal axis X, wherein the second core region 24 is of a second cross-sectional area perpendicular thereto.
    • 本文公开了设置成部分内部反射通过其的光能的光纤。 本发明的光纤10包括设置成部分地透射并部分地反射入射在其上的光能的内部部分镜。 在第一和第二纤维段14和18的界面I处有效地实现内部反射镜。第一纤维段14包括限定纵向轴线X的第一纤芯区域22.第一纤芯区域22是第一横截面 本发明的纤维10还包括与第一纤维段14光学连通的第二纤维段18.第二纤维段18包括限定纵轴X的第二芯区24,其中第二纤维 芯区域24具有与其垂直的第二横截面区域。
    • 9. 发明授权
    • Method and apparatus for compressing a light pulse
    • 用于压缩光脉冲的方法和装置
    • US5222161A
    • 1993-06-22
    • US840223
    • 1992-02-24
    • David B. ChangVictor Vali
    • David B. ChangVictor Vali
    • G02F1/01G02F1/035G02F2/00H01S3/00H01S3/10
    • H01S3/0057G02F1/0134G02F1/035G02F2203/26
    • This invention discloses a method and apparatus for shortening the length of a pulse of light. Generally, the method entails altering the index of refraction of an optical medium (14) through which the pulse of light is traveling at an area of the medium (14) where the front end of the pulse of light is located, such that the front end of the pulse of light travels slower than the back end, thus enabling the back end to catch up with the front end in order to shorten the length of the pulse. To accomplish this, it is proposed to generate an electric field across the optical medium (14) by a charge carrying medium (12) positioned relative to the optical medium (14), such that the index of refraction is altered by the electro-optic effect. In addition, it is possible to alter the index of refraction of the optical medium (14) by surrounding the optical medium (14) with a piezoelectric material (20) and applying an electric field to the piezoelectric material (20) such that the piezoelectric material (20) compresses the optical medium (14), thus altering the index of refraction.
    • 本发明公开了一种缩短光脉冲长度的方法和装置。 通常,该方法需要改变在光脉冲的前端所在的介质(14)的区域上行进光的介质(14)的折射率,使得前面 光脉冲的末端比后端的行进速度慢,从而能使后端跟上前端,以缩短脉冲的长度。 为了实现这一点,提出通过相对于光介质(14)定位的电荷传输介质(12)在光学介质(14)之间产生电场,使得折射率被电光 影响。 此外,通过用压电材料(20)围绕光学介质(14)并且向压电材料(20)施加电场,可以改变光学介质(14)的折射率,使得压电 材料(20)压缩光学介质(14),从而改变折射率。
    • 10. 发明授权
    • Apparatus and method for focusing hard X-rays
    • 用于聚焦硬X射线的装置和方法
    • US5210779A
    • 1993-05-11
    • US736153
    • 1991-07-26
    • Victor ValiDavid B. ChangAlbert F. Lawrence
    • Victor ValiDavid B. ChangAlbert F. Lawrence
    • G03F7/20G21K1/06H01L21/027
    • G21K1/06G03F7/70158G03F7/70316G21K2201/062
    • A dislocation-free, composite-substance crystal having a lattice constant which decreases over the length of the crystal (38) convergently focuses beams of hard X-rays or gamma rays (11). A single-substance, dislocation-free crystal (34) collimates diffuse beams of hard X-rays or gamma rays and projects the collimated radiation (11') to the focusing crystal (38). A mask (36) is interposed between the collimating crystal (34) and the focusing crystal (38) causing the collimated radiation (11'') to carry an image of the mask (36). The focusing crystal (38) produces a convergent hard X-ray beam or gamma ray beam (11''') to focus a reduced image of the mask (36) upon the photosensitive layer (41) of a wafer (39). An example of a dislocation-free crystal having a lattice constant which decreases over its length (38) is a dislocation-free silicon-germanium crystal (20) wherein the proportion of germanium to silicon varies over the length of the crystal.
    • 具有在晶体(38)的长度上减小的晶格常数的无位错复合材料晶体会聚地聚焦硬X射线或γ射线(11)的光束。 单体无位错晶体(34)准直了硬X射线或伽马射线的漫射束,并将准直辐射(11')投影到聚焦晶体(38)。 在准直晶体(34)和聚焦晶体(38)之间插入有使准直辐射(11“)携带掩模(36)的图像的掩模(36)。 聚焦晶体(38)产生会聚的硬X射线束或伽马射线束(11“),以将掩模(36)的还原图像聚焦在晶片(39)的感光层(41)上。 具有在其长度上减小的晶格常数(38)的无位错晶体的实例是无位错硅 - 锗晶体(20),其中锗与硅的比例在晶体长度上变化。