Boron-Lined Multitube Neutron Proportional Counter Test | |
Woodring, Mitchell L. ; Ely, James H. ; Kouzes, Richard T. ; Stromswold, David C. | |
Pacific Northwest National Laboratory (U.S.) | |
关键词: Alternative Neutron Detection; Plastics; Centronic; Fibers; Monitors; | |
DOI : 10.2172/992017 RP-ID : PNNL-19726 RP-ID : AC05-76RL01830 RP-ID : 992017 |
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美国|英语 | |
来源: UNT Digital Library | |
【 摘 要 】
Radiation portal monitors used for interdiction of illicit materials at borders include highly sensitive neutron detection systems. The main reason for having neutron detection capability is to detect fission neutrons from plutonium. The currently deployed radiation portal monitors (RPMs) from Ludlum and Science Applications International Corporation (SAIC) use neutron detectors based upon 3He-filled gas proportional counters, which are the most common large neutron detector. There is a declining supply of 3He in the world, and thus, methods to reduce the use of this gas in RPMs with minimal changes to the current system designs and sensitivity to cargo-borne neutrons are being investigated. Four technologies have been identified as being currently commercially available, potential alternative neutron detectors to replace the use of 3He in RPMs. These technologies are: 1) Boron trifluoride (BF3)-filled proportional counters, 2) Boron-lined proportional counters, 3) Lithium-loaded glass fibers, and 4) Coated non-scintillating plastic fibers. In addition, a few other companies have detector technologies that might be competitive in the near term as an alternative technology. Reported here are the results of tests of a boron-lined, “multitube” proportional counter manufactured by Centronic Ltd. (Surry, U.K. and Houston, TX). This testing measured the required performance for neutron detection efficiency and gamma-ray rejection capabilities of the detector.
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992017.pdf | 593KB | download |