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公开(公告)号:US20210124068A1
公开(公告)日:2021-04-29
申请号:US17072730
申请日:2020-10-16
Applicant: Silverside Detectors Inc.
Inventor: Andrew INGLIS , Zachary S. HARTWIG , Philip C. TABER , Timothy TEAL
Abstract: A fissile neutron detection system includes a neutron moderator and a neutron detector disposed proximate such that a majority of the surface area of the neutron moderator is disposed proximate the neutron detector. Fissile neutrons impinge upon and enter the neutron moderator where the energy level of the fissile neutron is reduced to that of a thermal neutron. The thermal neutron may exit the moderator in any direction. Maximizing the surface area of the neutron moderator that is proximate the neutron detector beneficially improves the reliability and accuracy of the fissile neutron detection system by increasing the percentage of thermal neutrons that exit the neutron moderator and enter the neutron detector.
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公开(公告)号:US20190243011A1
公开(公告)日:2019-08-08
申请号:US16379682
申请日:2019-04-09
Applicant: Silverside Detectors Inc.
Inventor: Andrew INGLIS , Zachary S. HARTWIG , Philip C. TABER , Timothy TEAL
CPC classification number: G01T3/008 , G01T1/185 , H01J47/02 , H01J47/1211 , H01J47/1233
Abstract: A fissile neutron detection system includes a neutron moderator and a neutron detector disposed proximate such that a majority of the surface area of the neutron moderator is disposed proximate the neutron detector. Fissile neutrons impinge upon and enter the neutron moderator where the energy level of the fissile neutron is reduced to that of a thermal neutron. The thermal neutron may exit the moderator in any direction. Maximizing the surface area of the neutron moderator that is proximate the neutron detector beneficially improves the reliability and accuracy of the fissile neutron detection system by increasing the percentage of thermal neutrons that exit the neutron moderator and enter the neutron detector.
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公开(公告)号:US20170023684A1
公开(公告)日:2017-01-26
申请号:US15039842
申请日:2015-10-16
Applicant: SILVERSIDE DETECTORS INC.
Inventor: Andrew INGLIS , Zach HARTWIG , Steve AHLEN , Philip C. TABER , Timothy TEAL
CPC classification number: G01T3/008 , H01J47/02 , H01J47/1211 , H01J47/1233
Abstract: A fissile neutron detection system includes a neutron moderator and a neutron detector disposed proximate such that a majority of the surface area of the neutron moderator is disposed proximate the neutron detector. Fissile neutrons impinge upon and enter the neutron moderator where the energy level of the fissile neutron is reduced to that of a thermal neutron. The thermal neutron may exit the moderator in any direction. Maximizing the surface area of the neutron moderator that is proximate the neutron detector beneficially improves the reliability and accuracy of the fissile neutron detection system by increasing the percentage of thermal neutrons that exit the neutron moderator and enter the neutron detector.
Abstract translation: 可裂变中子检测系统包括中子减速器和中子探测器,其设置成使得中子减速器的大部分表面区域设置在中子探测器附近。 可裂变中子撞击并进入中子慢化剂,其中易裂变中子的能级降低到热中子的能级。 热中子可以在任何方向离开调节剂。 使中子探测器附近的中子减速器的表面积最大化,通过增加离开中子调节剂并进入中子探测器的热中子的百分比,有利地提高了可裂变中子检测系统的可靠性和准确性。
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