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    • 4. 发明授权
    • Apparatus for simultaneous spatial modulation of incoherent/coherent angulary multiplexed optical beams
    • US06445470B1
    • 2002-09-03
    • US09648794
    • 2000-08-27
    • B. Keith JenkinsArmand R. Tanguay, Jr.
    • B. Keith JenkinsArmand R. Tanguay, Jr.
    • G03H112
    • G02B5/32G03H1/0005G03H1/265G03H1/28G11B7/0065G11B7/28G11C13/042H04Q11/0001
    • Novel apparatus for simultaneous spatial modulation of a set of angularly multiplexed individually coherent but mutually incoherent optical beams is disclosed, comprising means for generating a set of two or more individually coherent beams that have at least one optical wavelength in common, pairwise, and are assured to be mutually incoherent, and means for directing the set of individually coherent but mutually incoherent beams to a spatial modulation means, such that a spatially overlapping group of individually coherent but mutually incoherent beams overlap spatially in at least one region of the spatial modulation means and are angularly multiplexed within the region. Such simultaneous spatial modulation is a key feature, for example, in highly multiplexed photonic interconnection, memory, and display systems with maximum optical throughput efficiency and minimum crosstalk, based on parallel incoherent/coherent double angularly multiplexed holographic recording and readout principles. Simultaneous spatial modulation is also of importance for the provision for arbitrarily weighted and independent interconnections in the development of densely interconnected photonic implementations of neural networks, photonic interconnection networks for telecommunications switching and digital computing applications, optical information processors, optical memories, and optical displays. Variants of the apparatus are provided that allow for the incorporation of optically isolated semiconductor laser diode arrays, vertical cavity surface emitting laser arrays that are partially mutually incoherent and partially wavelength division multiplexed, the combination of laser diode and phase modulator arrays to provide for controllable mutual incoherence, both pixelated and non-pixelated spatial light modulators, and both planar and volume holographic or diffractive optical elements employed as spatial light modulation means.
    • 5. 发明授权
    • Method and apparatus for optical data storage using non-linear heating by excited state absorption for the alteration of pre-formatted holographic gratings
    • 用于通过激发态吸收的非线性加热来改变预格式化全息光栅的光学数据存储的方法和装置
    • US06322931B1
    • 2001-11-27
    • US09364271
    • 1999-07-29
    • Brian H. CumpstonJoseph W. PerrySeth R. Marder
    • Brian H. CumpstonJoseph W. PerrySeth R. Marder
    • G03H112
    • B82Y10/00G02F1/3523G11B7/0045G11B7/00455G11B7/0065G11B7/245
    • The present invention comprises an optical data storage system utilizing a host material and molecules that exhibit non-linear absorption dissolved therein. The non-linear absorbing molecules allow for energy in the form of heat to be generated during the optical data storage process. This heat provides for localized alterations to occur in the pre-formatted holographic grating. The non-linear feature of these molecules allow for alterations to occur at specific depths and locations within the storage medium while limiting the secondary effects on other locations within the storage medium. The molecules exhibiting non-linear absorption may be selected from the group of molecules exhibiting two-photon absorption or reverse saturable absorption. The invention also comprises a method for preparing the optical storage medium, an optical data storage device comprising the optical data storage medium and having a format hologram stored within the medium. Additionally, the invention comprises an optical data storage system and method for use thereof wherein the storage system uses the optical data storage medium described above when altering a pre-formatted holographic grating in a localized region by non-linear thermal disruption of the grating. Another embodiment of the present invention comprises an optical data retrieval system embodying the optical data storage device described above and a method for retrieving the format hologram stored on the optical data storage device of the present invention.
    • 本发明包括利用主体材料的光学数据存储系统和在其中显示非线性吸收的分子。 非线性吸收分子允许在光学数据存储过程期间产生热的能量。 该热量提供在预格式化全息光栅中发生的局部变化。 这些分子的非线性特征允许在存储介质中的特定深度和位置处发生变化,同时限制对存储介质内的其它位置的二次效应。 显示非线性吸收的分子可以选自呈现双光子吸收或反饱和吸收的分子组。 本发明还包括一种用于制备光学存储介质的方法,包括光学数据存储介质并且具有存储在介质内的格式全息图的光学数据存储设备。 另外,本发明包括光学数据存储系统及其使用方法,其中当通过光栅的非线性热破坏来改变局部区域中的预格式化全息光栅时,存储系统使用上述光学数据存储介质。 本发明的另一实施例包括体现上述光学数据存储装置的光学数据检索系统以及用于检索存储在本发明的光学数据存储装置上的格式全息图的方法。
    • 6. 发明授权
    • Phase-shift digital holographic apparatus
    • 相移数字全息设备
    • US06246495B1
    • 2001-06-12
    • US09049136
    • 1998-03-27
    • Ichirou Yamaguchi
    • Ichirou Yamaguchi
    • G03H112
    • G03H1/0443G03H1/0866G03H2001/0458
    • A phase-shift digital holographic apparatus shifts the phase of a reference wave by a phase shifting means, produces holographic image data by a holographic image pickup means having an image forming surface on which an object wave and the reference wave fall simultaneously, processes a plurality of holographic image data produced by the object wave and a plurality of reference waves of different phases determined by shifting the phase of the reference wave by the phase shifting means by an object wave calculating means to calculate phase data on the phase of the object wave and amplitude data on the amplitude of the object wave, and constitutes object wave data of the phase data on the phase of the object wave and the amplitude data on the amplitude of the object wave calculated by the object wave calculating means by a reproduced image calculating means and subjects the object wave data to a predetermined transformation process to calculate a reproduced image.
    • 相移数字全息设备通过相移装置移动参考波的相位,通过具有成像表面的全息图像拾取装置产生全息图像数据,其中对象波和参考波同时落在其上,处理多个 由对象波产生的全息图像数据和通过相移装置移动参考波的相位由对象波计算装置确定的多个不同相位的基准波,以计算对象波的相位的相位数据,以及 并且构成对象波的相位数据的相位数据的对象波数据和由对象波计算装置由再现图像计算装置计算的对象波的振幅的振幅数据的对象波数据 并且对象波数据进行预定的变换处理以计算再现的图像。