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    • 1. 发明申请
    • LIGHT COLLECTION SYSTEM AND METHOD
    • 光收集系统和方法
    • US20150009568A1
    • 2015-01-08
    • US14324018
    • 2014-07-03
    • Yair Salomon
    • Yair Salomon
    • G02B5/08G02B7/183
    • G02B5/08E04B5/46E04B2002/023E04C1/40E04C1/42E04C2/54F24S23/00F24S23/10F24S23/12F24S23/70F24S30/425G02B7/183H01L31/0543Y02E10/44Y02E10/52
    • A light collection systems with at least one light receiving element, such as a window, a photovoltaic element, a heating element, a light guiding element or combinations thereof, and at least one light reflector-deflector element. The light reflecting elements include a front light receiving surface, a rear surface, and a transparent volume, disposed between the front light receiving surface and the rear surface, the transparent layer being of a higher refractive index than of its surrounding. The transparent volume comprises an asymmetric pattern which is configured to at least partially reflect light by internal reflection and direct the light within the element, reflect some light off said front light receiving surface, reflect, deflect and guide light within the light reflector-deflector element; and direct light through the front light receiving surface towards the at least one light receiving element.
    • 具有至少一个光接收元件(例如窗户,光伏元件,加热元件,导光元件或其组合)的光收集系统以及至少一个光反射器 - 偏转器元件。 光反射元件包括设置在前光接收表面和后表面之间的前光接收表面,后表面和透明体积,透明层具有比其周围更高的折射率。 透明体积包括不对称图案,其被配置为通过内部反射至少部分地反射光并将光引导到元件内,反射一些光从所述前光接收表面反射,反射,偏转和引导光反射器 - 偏转元件 ; 并且将光通过前光接收表面引向所述至少一个光接收元件。
    • 2. 发明申请
    • LIGHT COLLECTION SYSTEM AND METHOD
    • 光收集系统和方法
    • US20120092772A1
    • 2012-04-19
    • US13320429
    • 2010-05-13
    • Yair Salomon
    • Yair Salomon
    • G02B5/08
    • G02B5/08E04B5/46E04B2002/023E04C1/40E04C1/42E04C2/54F24S23/00F24S23/10F24S23/12F24S23/70F24S30/425G02B7/183H01L31/0543Y02E10/44Y02E10/52
    • The present invention is directed to light collection systems, the system comprising at least one light receiving element, selected from the group consisting of: a window, a photovoltaic element, a heating element, a light guiding element and combinations thereof, and at least one light reflector-deflector element, each element comprising a front light receiving surface, a rear surface, and a transparent volume, disposed between the front light receiving surface and the rear surface, the transparent layer being of a higher refractive index than of its surrounding, wherein the transparent volume comprises an asymmetric pattern which is configured to at least partially reflect light by internal reflection and direct the light within the element, reflect some light off said front light receiving surface, reflect, deflect and guide light within the light reflector-deflector element; and direct light through the front light receiving surface towards the at least one light receiving element.
    • 本发明涉及光收集系统,该系统包括至少一个光接收元件,该光接收元件选自:窗口,光电元件,加热元件,导光元件及其组合,以及至少一个 光反射器偏转元件,每个元件包括前光接收表面,后表面和透明体,设置在前光接收表面和后表面之间,透明层具有比其周围更高的折射率, 其中所述透明体积包括非对称图案,其被配置为通过内部反射至少部分地反射光并将光引导到所述元件内,从所述前光接收表面反射一些光,反射,偏转和引导所述光反射器 - 偏转器内的光 元件; 并且将光通过前光接收表面引向所述至少一个光接收元件。
    • 5. 发明申请
    • CONTROL SIGNAL FOR THREE DIMENSIONAL OPTICAL DATA STORAGE
    • 用于三维光学数据存储的控制信号
    • US20100002555A1
    • 2010-01-07
    • US12521232
    • 2007-12-31
    • Yair Salomon
    • Yair Salomon
    • G11B7/0037G11B7/085
    • G11B7/00375G11B7/085G11B2007/0009
    • A method is presented for use in determining a degree of quality of a multi-layer optical data carrier in its at least partially recorded state. Predetermined first data is provided being indicative of a qualified, at least partially recorded multi-layer optical data carrier. This data corresponds to an optical response obtainable from a specific data carrier under predetermined conditions of an optical scan of the rotating data carrier. A data carrier being qualified is scanned by at least one optical beam under said predetermined conditions of the scan, and a first control signal from the data carrier is detected and data indicative of the detected control signal is generated. The so generated data is processed to determine a relation with said predetermined data. The determined relation is used for determining a degree of quality of said scanned data carrier.
    • 呈现一种用于确定其至少部分记录状态的多层光数据载体的质量程度的方法。 提供预定的第一数据指示合格的至少部分记录的多层光数据载体。 该数据对应于在旋转数据载体的光学扫描的预定条件下从特定数据载体获得的光学响应。 在扫描的所述预定条件下,由至少一个光束扫描被限定的数据载体,并且检测来自数据载体的第一控制信号,并产生指示检测到的控制信号的数据。 处理如此生成的数据以确定与所述预定数据的关系。 所确定的关系用于确定所述扫描数据载体的质量。
    • 6. 发明申请
    • OPTICAL DATA CARRIER AND METHOD FOR READING/RECORDING DATA THEREIN
    • 光学数据载体和读取/记录数据的方法
    • US20090310473A1
    • 2009-12-17
    • US12162338
    • 2007-01-18
    • Kanji KatsuuraRene HamerYair Salomon
    • Kanji KatsuuraRene HamerYair Salomon
    • G11B7/24B32B7/02B32B3/10
    • G11B7/24038B82Y10/00G11B7/0938G11B7/1275G11B7/245G11B7/246G11B7/2533G11B7/2534G11B7/256G11B7/258G11B2007/0009G11B2007/24624Y10T428/24612Y10T428/24802Y10T428/24942
    • An optical data carrier is presented. The data carrier comprises at least one recording layer, at least one non-recording layer, and at least one reflective interface. The recording layer is made of a material having a fluorescent property variable on occurrence of multi-photon absorption resulted from an optical beam, and has a thickness for recording therein data in the form of a three-dimensional pattern of spaced-apart recording regions arranged in a plurality of recording planes. The at least one non-recording layer interfaces with the recording layer on, respectively, at least one of upper and lower surfaces of the recording layer The non-recording layer has a fluorescent property different from that of the recording layer, and has a predetermined thickness selected to be equal or larger than a focal depth of an optical system producing the optical beam incidence onto the data carrier. The at least one reflective interface comprises at least one reference layer having a reflecting property. The at least reflective layer is formed on the other surface of the at least one non-recording layer, respectively, such that the non-recording layer in sandwiched between the reference layer and the recording layer.
    • 介绍了一种光学数据载体。 数据载体包括至少一个记录层,至少一个非记录层和至少一个反射界面。 记录层由在光束产生的多光子吸收发生时具有荧光特性变化的材料制成,并且具有用于在其中记录间隔开的记录区域的三维图案形式的数据的厚度, 在多个记录平面中。 至少一个非记录层分别与记录层的上表面和下表面中的至少一个与记录层相接合。非记录层具有与记录层不同的荧光特性,并且具有预定的 选择的厚度等于或大于产生光束入射到数据载体上的光学系统的焦深。 所述至少一个反射界面包括具有反射性质的至少一个参考层。 所述至少一层反射层分别形成在所述至少一个非记录层的另一表面上,使得所述非记录层夹在所述参考层和所述记录层之间。