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    • 1. 发明授权
    • Method for fabrication of a detector component using laser technology
    • 使用激光技术制造检测器部件的方法
    • US08470214B2
    • 2013-06-25
    • US10856225
    • 2004-05-28
    • James L. CorbeilTroy MarlarMatthias J. SchmandNiraj K. DoshiMark S. Andreaco
    • James L. CorbeilTroy MarlarMatthias J. SchmandNiraj K. DoshiMark S. Andreaco
    • B29D11/00
    • G01T1/20B23K2103/50G01T1/2002
    • A method for fabricating a detector or light guide using laser technology. The method yields a detector component such as a scintillator, light guide or optical sensor which provides for the internal manipulation of light waves via the strategic formation of micro-voids to enhance control and collection of scintillation light, allowing for accurate decoding of the impinging radiation. The method uses laser technology to create micro-voids within a target media to optically segment the media. The micro-voids are positioned to define optical boundaries of the optically-segmented portions forming virtual resolution elements within the scintillator. Each micro-void is formed at its selected location using a laser source. The laser source generates and focuses a beam of light into the target media sequentially to form the micro-voids. The laser beam ablates the media at the focal point, thereby yielding the micro-void.
    • 一种使用激光技术制造检测器或导光体的方法。 该方法产生诸如闪烁体,光导或光学传感器的检测器组件,其通过微空隙的战略形成提供对光波的内部操纵,以增强闪烁光的控制和收集,允许对入射辐射的精确解码 。 该方法使用激光技术在目标介质内产生微孔,以光学分段介质。 微孔被定位以限定在闪烁体内形成虚拟分辨元件的光学分割部分的光学边界。 使用激光源在其选定位置形成每个微孔。 激光源产生并将光束聚焦到目标介质中以形成微空隙。 激光束在焦点处消融介质,从而产生微孔。
    • 9. 发明授权
    • Cooling unit for cooling a detection device in an imaging system and detection devices and imaging systems therefrom
    • 用于冷却成像系统中的检测装置的冷却单元及其检测装置和成像系统
    • US08590331B2
    • 2013-11-26
    • US12903445
    • 2010-10-13
    • James L. CorbeilStefan Stocker
    • James L. CorbeilStefan Stocker
    • F25D23/12
    • G01T1/16F28D2021/0028F28F1/16G01R33/3804G01R33/481
    • A cooling unit operating in a magnetic field is provided. The cooling unit includes an encasement body having a non-electrically conductive composition and defining a first and second opposing planar surface. The cooling unit also includes a metal conduit disposed in the encasement body substantially parallel to the first surface. Additionally, the cooling unit also includes a series of metal fins disposed in the encasement body and extending from the conduit. In some configurations the fins can be substantially parallel to the first surface. Further, in some configurations, non-electrically conductive inserts having a thermal conductivity greater than a thermal conductivity of the encasement body can be disposed in a portion of the encasement body between one of the first and second surfaces and one or more of the metals fins.
    • 提供了在磁场中工作的冷却单元。 冷却单元包括具有非导电组合物并且限定第一和第二相对的平坦表面的封装体。 冷却单元还包括设置在包装体中的基本上平行于第一表面的金属导管。 此外,冷却单元还包括设置在包装体中并从导管延伸的一系列金属翅片。 在一些构造中,翅片可以基本上平行于第一表面。 此外,在一些构造中,具有大于封装体的热导率的导热率的非导电插入件可以设置在第一和第二表面中的一个之间的包装体的一部分中,以及一个或多个金属片 。