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    • 1. 发明授权
    • System for making a hologram of an image by manipulating object beam characteristics to reflect image data
    • 用于通过操纵物体光束特性以反映图像数据来制作图像全息图的系统
    • US06486982B1
    • 2002-11-26
    • US09168585
    • 1998-10-08
    • Frank Davis
    • Frank Davis
    • G03H108
    • G03H1/30G02B5/1842G03H1/26G03H2001/0482G03H2001/0497G03H2223/12Y10S359/90
    • A system for converting an image into a hologram formed from diffraction gratings includes obtaining image data for each pixel in an image to be converted, putting it into digital form and using the image data to control portions of a laser beam split into a reference beam and at least one object beam. The diffraction gratings are formed by an interference pattern of a reference beam and at least one object beam intersecting on the surface of a photoresist material on a pixel-by-pixel basis. Modulation of at least one object beam and adjustment of the angle at which that beam interferes with the reference beam on the photoresist material is used to reflect image data for each pixel of the image being converted into a hologram consisting of diffraction gratings. By using this technique and selecting the spacings between pixel pairs on the photosensitive surface, the angle at which a viewer will see a predetermined image or reflecting light from the hologram is determined, as well as the apparent position of the image created by reflecting light from the hologram constituted by the spaced diffraction gratings.
    • 用于将图像转换成由衍射光栅形成的全息图的系统包括获得要转换的图像中的每个像素的图像数据,将其变成数字形式并使用图像数据来控制分割成参考光束的激光束的部分,以及 至少一个物体光束。 衍射光栅由参考光束的干涉图案和至少一个物镜光束在逐像素的基础上与光致抗蚀剂材料的表面相交而形成。 使用至少一个物体光束的调制和光束干涉光刻胶材料上的参考光束的角度的调整,以反映被转换成由衍射光栅组成的全息图的图像的每个像素的图像数据。 通过使用该技术并选择感光表面上的像素对之间的间隔,确定观察者将看到预定图像或反射来自全息图的光的角度以及通过反射来自全息图的光的图像的视在位置 由间隔的衍射光栅构成的全息图。
    • 5. 发明授权
    • Method and apparatus for generating a hologram
    • 用于产生全息图的方法和装置
    • US06771402B2
    • 2004-08-03
    • US09964532
    • 2001-09-28
    • Gregory S. Snider
    • Gregory S. Snider
    • G03H108
    • G03H1/08G03H1/0808G03H1/0891G03H2001/0478G03H2210/30G03H2210/40
    • A method and system for generating a hologram include a computer (104) connected to a printer (108). A mathematical description (102) of an object, including for example the physical dimensions of the object, is provided to the computer (104). The computer (104) computes a holographic interference pattern based on the mathematical description (102) of the object, and than transmits the computed holographic interference pattern data (106) to the printer (108). The printer (108) prints or otherwise fixes the holographic interference pattern to a print medium (107) to produce a holograph (110). A holographic (three-dimensional) image (114) of the object can then be produced by directing a light beam (118) from a light source (112) onto a surface of the hologram (110), so that the light will interfere with the pattern to generate the holographic image (114).
    • 用于产生全息图的方法和系统包括连接到打印机(108)的计算机(104)。 包括例如对象的物理尺寸的对象的数学描述(102)被提供给计算机(104)。 计算机(104)基于物体的数学描述(102)计算全息干涉图案,并且将计算出的全息干涉图案数据(106)发送到打印机(108)。 打印机(108)将全息干涉图案打印或以其它方式固定到打印介质(107)以产生全息图(110)。 然后可以通过将来自光源(112)的光束(118)引导到全息图(110)的表面上来产生物体的全息(三维)图像(114),使得光将干扰 生成全息图像的图案(114)。
    • 8. 发明授权
    • Phase imaging using multi-wavelength digital holography
    • 相位成像使用多波长数字全息术
    • US06809845B1
    • 2004-10-26
    • US10668080
    • 2003-09-22
    • Myung K. KimJames GassAaron Dakoff
    • Myung K. KimJames GassAaron Dakoff
    • G03H108
    • G03H1/0866G03H2001/0456G03H2001/0875G03H2222/13
    • The present invention is a phase-imaging technique by digital holography that eliminates the problem of 2&pgr;-ambiguity. The technique is based on a combination of two or more digital holograms generated using multiple wavelengths. For a two-wavelength experiment, the phase maps of two digital holograms of different wavelengths are subtracted which yields another phase map whose effective wavelength is inversely proportional to the difference of wavelengths. Using two holograms made with a 633 nm HeNe laser and a 532 nm doubled YAG laser an image was obtained that is a 3D reconstruction of a reflective surface with axial resolution of ˜10 nm over a range of −5 um, without any phase discontinuity over this range. The method can be extended to three wavelengths or more in order to reduce the effect of phase noise further.
    • 本发明是通过数字全息术的相位成像技术,其消除了2pi模糊的问题。 该技术基于使用多个波长产生的两个或多个数字全息图的组合。 对于双波长实验,减去不同波长的两个数字全息图的相位图,其产生另一相位图,其有效波长与波长差成反比。 使用由633nm HeNe激光器和532nm双重YAG激光器制成的两个全息图,获得了在-5μm范围内具有约10nm的轴向分辨率的反射表面的3D重建,而没有任何相位不连续性 这个范围。 该方法可以扩展到三个或更多个波长,以便进一步降低相位噪声的影响。
    • 9. 发明授权
    • Method and apparatus for holographic data storage
    • 用于全息数据存储的方法和装置
    • US06674555B1
    • 2004-01-06
    • US09599686
    • 2000-06-22
    • Kevin Richard CurtisPartha Pratim MitraMichael C. Tackitt
    • Kevin Richard CurtisPartha Pratim MitraMichael C. Tackitt
    • G03H108
    • G11B7/1372G03H1/16G03H2210/22G03H2223/13G03H2225/55
    • Apparatus for holographic recording of information includes a lens or lens system, referred to here as the “FT lens,” situated in such a way that light from an object beam enters the FT lens after passing through an object, and light leaving the FT lens impinges on a recording medium situated at a Fourier transform plane of the object with respect to the FT lens. Disclosed apparatus includes a phase element effectively juxtaposed with the object, in which the phase element is effective for redistributing object-beam intensity in the Fourier transform plane, and the phase element has a correlation length greater than a maximum pixel side length associated with the object. Disclosed apparatus includes an optical element or optical system, referred to here as a “power optic,” that adds convergence or divergence to the object beam before the object beam enters the FT lens.
    • 用于信息全息记录的装置包括一个这里称为“FT透镜”的透镜或透镜系统,这些透镜或透镜系统以这样的方式设置,使得来自物体光的光在通过物体后进入FT透镜,并且离开FT透镜的光 撞击位于物体相对于FT透镜的傅里叶变换平面的记录介质上。 公开的装置包括与物体并排的相位元件,其中相位元件有效地用于在傅里叶变换平面中重新分配物体光束强度,并且相位元件具有大于与物体相关联的最大像素边长度的相关长度 。 公开的装置包括一种光学元件或光学系统,这里称为“功率光学器件”,其在对象光束进入FT透镜之前将对象光束增加会聚或发散。