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    • 3. 发明申请
    • 3D-TRENCH ELECTRODE DETECTORS
    • 3D-TRENCH电极探测器
    • WO2011049832A3
    • 2011-08-25
    • PCT/US2010052887
    • 2010-10-15
    • BROOKHAVEN SCIENCE ASS LLCLI ZHENG
    • LI ZHENG
    • G01T1/24H01L21/02
    • H01L31/117H01L27/1446H01L31/03529Y02E10/50
    • A three-dimensional (3D) Trench detector and a method for fabricating the detector are disclosed. The 3D-Trench detector includes a bulk of semiconductor material that has first and second surfaces separated from each other by a bulk thickness, a first electrode in the form of a 3D-Trench, and a second electrode in the form of a 3D column. The first and second electrodes extend into the bulk along the bulk thickness. The first and second electrodes are separated from each other by a predetermined electrode distance, and the first electrode completely surrounds the second electrode along essentially the entire distance that the two electrodes extend into the bulk such that the two electrodes are substantially concentric to each other. The fabrication method includes doping a first narrow and deep region around the periphery of the bulk to form the first electrode, and doping a second narrow and deep region in the center of the bulk to form the second electrode.
    • 公开了三维(3D)沟道检测器和用于制造检测器的方法。 3D-沟槽探测器包括具有通过堆积厚度彼此分开的第一和第二表面的半导体材料块,3D-沟槽形式的第一电极和3D柱形式的第二电极。 第一和第二电极沿着整体厚度延伸到整体中。 第一电极和第二电极彼此分开预定的电极距离,并且第一电极沿着基本上两个电极延伸到体中的整个距离完全围绕第二电极,使得两个电极基本上彼此同心。 该制造方法包括在块的外围周围掺杂第一狭窄和深的区域以形成第一电极,并且在块的中心掺杂第二狭窄和深的区域以形成第二电极。
    • 10. 发明申请
    • FLUID TREATMENT SYSTEM
    • 流体处理系统
    • WO2008019490A1
    • 2008-02-21
    • PCT/CA2007/001417
    • 2007-08-17
    • TROJAN TECHNOLOGIESTRAUBENBERG, GeorgePENHALE, DouglasMA, Li-Zheng
    • TRAUBENBERG, GeorgePENHALE, DouglasMA, Li-Zheng
    • C02F1/32A61L2/10B01J19/12
    • C02F1/325C02F1/008C02F2201/3225C02F2201/3227C02F2201/324C02F2201/326C02F2201/328C02F2209/42
    • There is described a fluid treatment system. The fluid treatment system comprises: an open channel for receiving a flow of fluid and a fluid treatment zone. The fluid treatment zone comprising a plurality of elongate radiation source assemblies orientated such that: (i) a longitudinal axis of each radiation source assembly is transverse to a direction of fluid flow through the fluid treatment zone, and (ii) an end of each radiation source assembly is disposed above a predetermined maximum height of fluid flow in the open channel. A first baffle plate is disposed upstream of the fluid treatment zone. The first baffle plate is positioned such that a distal end thereof is below the predetermined maximum height of fluid flow in the open channel. In a preferred embodiment, the present fluid treatment system provides for an area in which a cleaning system for the radiation source assemblies can be "parked" when not in use. In the so- called "parked" position, the cleaning system may be readily accessed for servicing and the like without affecting the flow of fluid through the fluid treatment zone and a fluid treatment system. This is as significant advantage of the fluid treatment system.
    • 描述了一种流体处理系统。 流体处理系统包括:用于接收流体流的开放通道和流体处理区。 所述流体处理区包括多个细长的辐射源组件,其定向成:(i)每个辐射源组件的纵向轴线横向于通过流体处理区域的流体流动方向,和(ii)每个辐射的末端 源组件设置在开放通道中的流体流的预定最大高度之上。 第一挡板设置在流体处理区的上游。 第一挡板被定位成使得其远端低于开放通道中流体流量的预定最大高度。 在优选实施例中,本流体处理系统提供了在不使用时用于辐射源组件的清洁系统可以“停放”的区域。 在所谓的“停放”位置,清洁系统可以容易地进行维修等,而不影响通过流体处理区和流体处理系统的流体的流动。 这是流体处理系统的显着优点。