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    • 6. 发明申请
    • ENVIRONMENTAL RADIOACTIVITY MEASUREMENT SYSTEM OF ADMINISTRATION AND AN ANALYSIS METHOD OF THE RADIOACTIVITY
    • 管理的环境放射性测量系统和放射性分析方法
    • US20090070070A1
    • 2009-03-12
    • US12193143
    • 2008-08-18
    • Hiroshi KitaguchiTakahiro TadokoroAkihisa Kaihara
    • Hiroshi KitaguchiTakahiro TadokoroAkihisa Kaihara
    • G06F15/00
    • G01T7/00
    • At a worksite of a client, progeny nuclides of radon and thoron are collected into a filter, then making the gross measurement on α-ray amount within an hour from the collection. Next, the filter is sent to an analysis center with information added thereto, such as collection-condition information, gross-measurement information, and sampling-worksite information. At the analysis center, the gross measurement on the filter sent thereto is made again. Also, the radioactive-nuclide analysis is made to perform accurate evaluation of the radioactivity intensity. Moreover, radon amount and thoron amount at the measurement-specimen sampling points-in-time at the worksite are calculated, then reporting the analysis result of the radon and thoron amounts to the client. There are provided an environmental-radioactivity measurement/management system which allows measurement specimens for measuring the environmental radioactivity to be processed at low cost and in large amounts, and the analysis method for the radioactivity intensity.
    • 在客户的现场,将氡气和钍气的后代核素收集到过滤器中,然后在收集后一小时内对α射线量进行总体测量。 接下来,将过滤器发送到具有添加信息的分析中心,例如收集条件信息,总测量信息和采样站点信息。 在分析中心,再次进行发送到其上的滤波器的总测量。 此外,进行放射性核素分析以对放射性强度进行精确评估。 此外,计算工地现场测量样本采集点的氡量和钍气量,然后向客户报告氡气和钍气量的分析结果。 提供了一种环境放射性测量/管理系统,其允许以低成本和大量的方式处理用于测量环境放射性的测量样本和放射性强度的分析方法。
    • 7. 发明授权
    • Neutron individual dose meter, neutron dose rate meter, neutron detector
and its method of manufacture
    • 中子单剂量计,中子剂量率计,中子检测仪及其制造方法
    • US5321269A
    • 1994-06-14
    • US778876
    • 1991-12-27
    • Hiroshi KitaguchiShigeru IzumiAkihisa Kaihara
    • Hiroshi KitaguchiShigeru IzumiAkihisa Kaihara
    • G01T1/02G01T3/00G01T3/08H01L31/00H01L31/115
    • G01T3/08G01T1/026
    • A neutron individual dose meter and a neutron dose rate meter, both capable of implementing the effective dose equivalent response. The neutron individual dose meter is capable of being accomplished by providing a composite layer made up of a converter such as boron, and a proton radiator, on the surface of a semiconductor neutron detection element. The neutron dose rate meter is capable of being accomplished through such a structure as to surround a neutron detector with a neutron moderator and a thermal neutron absorber which has openings. Thus, a neutron individual dose meter and a neutron dose rate meter, both capable of implementing the effective dose equivalent response and measurement at lower operating voltage have been provided. Further, these meters are capable of being implemented by utilizing a single semiconductor detection element, respectively.
    • PCT No.PCT / JP91 / 00574 Sec。 371日期1991年12月27日 102(e)日期1991年12月27日PCT 1991年4月26日PCT PCT。 公开号WO91 / 17462 1991年11月4日。中子个体剂量计和中子剂量率计,均能实现有效剂量当量反应。 中子单个剂量计能够通过在半导体中子检测元件的表面上提供由诸如硼的转换器和质子辐射器构成的复合层来实现。 中子剂量率计能够通过这样一种结构来实现,即用中子减速剂和具有开口的热中子吸收体包围中子检测器。 因此,提供了能够在较低工作电压下实现有效剂量当量响应和测量的中子单个剂量计和中子剂量率计。 此外,这些仪表能够分别通过利用单个半导体检测元件来实现。
    • 8. 发明授权
    • Apparatus and method for detecting α-ray
    • 用于检测α射线的装置和方法
    • US07161153B2
    • 2007-01-09
    • US10810802
    • 2004-03-29
    • Toru ShibutaniAkihisa Kaihara
    • Toru ShibutaniAkihisa Kaihara
    • G01T1/17G01T1/24
    • G01T1/24
    • An α-ray measuring apparatus is provided for accurately analyzing the energy of a trace of α-rays emitted from a sample in a short time using semiconductor detectors which excel in energy resolution. The α-ray measuring apparatus comprises an α-ray detector including a plurality of semiconductor detectors, an adder for adding output signals from the respective semiconductor detectors, an anticoincidence counter for anticoincidently counting the output signals from the respective semiconductor detectors, and a peak analyzer for analyzing an energy distribution of the α-rays based on an addition of the output signals from the semiconductor detectors which are not anticoincidently counted. Since the output signals from the plurality of semiconductor detectors are added to increase the area of a sample under measurement and also remove background noise, the α-ray measuring apparatus can more accurately analyze the energy of the α-rays while reducing a measuring time.
    • 提供了一种α射线测量装置,用于使用能量分辨率优异的半导体检测器,在短时间内精确地分析从样品发射的α-射线迹线的能量。 该α射线测量装置包括一个包括多个半导体检测器的α射线检测器,一个用于加上各个半导体检测器的输出信号的加法器,用于对来自各个半导体检测器的输出信号进行反相计数的防伪计数器,以及峰值分析器 用于基于来自半导体检测器的输出信号的加法来分析α射线的能量分布,该半导体检测器没有被反意识地计数。 由于添加来自多个半导体检测器的输出信号以增加被测试样品的面积并且还消除了背景噪声,因此在减少测量时间的同时,α射线测量装置可以更准确地分析α射线的能量。