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    • 2. 发明申请
    • CRYOGENIC COOLING PUMP AND METHOD
    • 低温冷却泵和方法
    • WO2013178315A1
    • 2013-12-05
    • PCT/EP2013/001303
    • 2013-05-02
    • CERN - EUROPEAN ORGANIZATION FOR NUCLEAR RESEARCH
    • HAUG, FriedrichSCHMID, Jonas
    • F04B15/08F04B7/04
    • F04B15/08F04B7/04F04B17/03F04B19/22F04B2015/081F04B2015/082
    • A pump (10) for circulating a cryogenic coolant, comprising: a cylinder housing (14); a piston (16) received in said cylinder housing (14) for reciprocating in said cylinder housing (14) between a first death center position (18) and a second death center position (20), said first death center position (18) and said second death center position (20) defining a compression chamber (22) therebetween; an outlet (34) for said compression chamber (22); and an inlet (36) formed in a wall (24) of said cylinder housing (14) at a position between said first death center position (18) and said second death center position (20); wherein said inlet (36) is adapted to establish a fluid connection between said compression chamber (22) and a coolant reservoir (40; 76).
    • 一种用于使低温冷却剂循环的泵(10),包括:气缸壳体(14); 容纳在所述气缸壳体(14)中的活塞(16),用于在所述气缸壳体(14)中在第一死亡中心位置(18)和第二死亡中心位置(20)之间往复运动,所述第一死亡中心位置(18)和 所述第二死亡中心位置(20)在其间限定压缩室(22); 用于所述压缩室(22)的出口(34); 以及在所述第一死亡中心位置(18)和所述第二死亡中心位置(20)之间的位置处形成在所述气缸壳体(14)的壁(24)中的入口(36)。 其中所述入口(36)适于在所述压缩室(22)和冷却剂储存器(40; 76)之间建立流体连接。
    • 4. 发明申请
    • A METHOD OF MANUFACTURING A GAS ELECTRON MULTIPLIER
    • 一种制造气体电子乘法器的方法
    • WO2009127220A1
    • 2009-10-22
    • PCT/EP2008/002944
    • 2008-04-14
    • CERN - EUROPEAN ORGANIZATION FOR NUCLEAR RESEARCH TECHNOLOGY TRANSFER GROUPDE OLIVEIRA, Rui
    • DE OLIVEIRA, Rui
    • H01J43/06G01N27/22
    • H01J47/02
    • A method of manufacturing a gas electron multiplier is shown. The method comprises a step of preparing a blank sheet (28) comprised of an insulating sheet (12) with first and second metal layers (14, 16) on its surface, a first metal layer hole forming step in which the first metal layer is patterned by means of photolithography, such as to form holes (18) through the first metal layer, an insulating sheet hole forming step, in which the holes (18) formed in the first metal layer (14) are extended through the insulating layer (12) by etching from the first surface side only, and a second metal layer hole forming step, in which the holes (18) are extended through the second metal layer (16). In one embodiment, the second metal layer hole forming step is performed by electrochemical etching, such that the first metal layer (14) remains unaffected during etching of the second metal layer (16). In another embodiment, in the second metal layer hole forming step, the first and second metal layers (14, 16) are etched from the outside, thereby reducing the initial thicknesses of the first and second metal layers (14, 16) and the second metal layer (16) is simultaneously etched through the holes (18) in the first metal layer (14) and the insulating sheet (12), said etching being maintained until the holes (18) extend through the second metal layer, wherein said initial average thickness of the first and second metal layers (14, 16) is between 6.5 μm and 25 μm, preferably between 7.5 μm and 12 μm.
    • 示出了制造气体电子倍增器的方法。 该方法包括在其表面上制备由绝缘片(12)构成的第一和第二金属层(14,16)的空白片(28)的步骤,其中第一金属层形成步骤 通过光刻法图案化,例如通过第一金属层形成孔(18),绝缘片孔形成步骤,其中形成在第一金属层(14)中的孔(18)延伸穿过绝缘层( 12),以及第二金属层孔形成工序,其中孔(18)延伸穿过第二金属层(16)。 在一个实施例中,第二金属层孔形成步骤通过电化学蚀刻进行,使得第一金属层(14)在蚀刻第二金属层(16)期间保持不受影响。 在另一个实施例中,在第二金属层孔形成步骤中,从外部蚀刻第一和第二金属层(14,16),由此减小第一和第二金属层(14,16)的初始厚度,而第二金属层 通过第一金属层(14)和绝缘片(12)中的孔(18)同时蚀刻金属层(16),所述蚀刻保持直到孔(18)延伸穿过第二金属层,其中所述初始 第一和第二金属层(14,16)的平均厚度在6.5μm和25μm之间,优选在7.5μm和12μm之间。
    • 7. 发明申请
    • AC-CURRENT INDUCED QUENCH PROTECTION SYSTEM
    • AC电流感应猝灭保护系统
    • WO2014207130A1
    • 2014-12-31
    • PCT/EP2014/063575
    • 2014-06-26
    • CERN - EUROPEAN ORGANIZATION FOR NUCLEAR RESEARCH
    • KIRBY, Glyn AlistairDATSKOV, VladimirRAVAIOLI, Emmanuele
    • H01F6/02
    • H02H7/001H01F6/02Y02E40/68
    • An apparatus (100) for quenching at least part (110) of a superconductor in a superconducting state in reply to a quench signal to initiate a transition from the superconducting state into a normal-conducting state comprises: means (120) for providing an alternating (AC) current of a predetermined strength and/or predetermined frequency to the at least part (110) of the superconductor, wherein the means (120) for providing the AC current comprises a control terminal (130) configured to receive the quench signal. The means (120) for providing the AC current is configured to be activated in response of receiving the quench signal at the control terminal (130) so that the AC current flows through the at least part (110) of the superconductor, wherein the predetermined strength and/or the predetermined frequency is selected such that the transition from the superconducting state into a normal- conducting state is triggered.
    • 一种用于在超导状态下淬火超导状态的至少一部分(110)的设备(100),以响应于淬火信号以引发从超导状态转变为正常导通状态的装置(100)包括:用于提供交替 (110),其中用于提供所述AC电流的装置(120)包括被配置为接收所述骤冷信号的控制端子(130),所述控制端子(130)具有预定强度和/或预定频率的至少一部分(AC)电流。 用于提供AC电流的装置(120)被配置为响应于在控制端(130)处接收到骤冷信号而被激活,使得AC电流流过超导体的至少部分(110),其中预定 选择强度和/或预定频率使得从超导状态转变为正常导通状态被触发。
    • 10. 发明申请
    • METHOD, APPARATUS AND COMPUTER PROGRAM FOR MEASURING THE DOSE, DOSE RATE OR COMPOSITION OF RADIATION
    • 用于测量剂量,剂量率或辐射组成的方法,装置和计算机程序
    • WO2008110182A1
    • 2008-09-18
    • PCT/EP2007/002105
    • 2007-03-09
    • CERN - EUROPEAN ORGANIZATION FOR NUCLEAR RESEARCHCZECH TECHNICAL UNIVERSITY OF PRAGUEHEIJNE, Erik, Henricus, M.POSPISIL, Stanislav
    • HEIJNE, Erik, Henricus, M.POSPISIL, Stanislav
    • G01T1/02G01T5/02
    • G01T1/026G01T5/02
    • A method and an apparatus for measuring the dose, the dose rate and/or the composition of radiation is disclosed. In the method, a detector means (10) is exposed to a radiation environment, the detector means (10) comprising an array of radiation sensing detector elements. The detector means (10) is switched in a sensitive state for the duration of a sensitive time period, and during said sensitive time period, an interaction pattern generated by individual radiation quanta interacting with one or more of the detector elements is recorded. The duration of the sensitive time period can be precisely adapted to the intensity of the radiation that has to be recorded. The interaction pattern is analyzed to distinguish individual radiation quanta received during the sensitive time period, and a radiation category is assigned to each of the distinguished radiation quanta based on its corresponding interaction pattern. A dose, a dose rate and/or a composition of radiation is then computed from the detected and categorized radiation quanta. Weight factors are attributed to each radiation category to take into account the individual degree of damage which the corresponding category can inflict in the irradiated materials.
    • 公开了用于测量辐射的剂量,剂量率和/或组成的方法和装置。 在该方法中,检测器装置(10)暴露于辐射环境,检测器装置(10)包括辐射感测检测器元件阵列。 检测器装置(10)在灵敏时间段的持续时间内被切换成敏感状态,并且在所述灵敏时间段期间,记录与一个或多个检测器元件相互作用的各个辐射量子产生的相互作用图案。 灵敏时间段的持续时间可以精确地适应于必须记录的辐射强度。 分析相互作用模式以区分在敏感时间段期间接收的个体辐射量子,并且基于其对应的相互作用模式将辐射类别分配给每个识别的辐射量子。 然后从检测和分类的辐射量子计算剂量,剂量率和/或辐射组成。 重量因子归因于每个辐射类别,以考虑相应类别可能在辐射材料中造成的个体损害程度。