核电子学与探测技术
覈電子學與探測技術
핵전자학여탐측기술
NUCLEAR ELECTRONICS & DETECTION TECHNOLOGY
2013年
8期
1036-1038,1042
,共4页
丁逸仙%庹先国%刘明哲%张金钊%阳林峰
丁逸仙%庹先國%劉明哲%張金釗%暘林峰
정일선%탁선국%류명철%장금쇠%양림봉
分段γ扫描%前置准直器%距离%MC模拟
分段γ掃描%前置準直器%距離%MC模擬
분단γ소묘%전치준직기%거리%MC모의
segmented gamma scanning%collimator%distance%MC simulation
依据分段γ扫描装置(SGS)探测效率刻度理论,推导出探测器对单个光子探测效率计算公式,并分析了前置平板准直器对计算结果的影响,使用MCNP5软件建立探测装置模型,模拟了废物桶处在不同位置时,前置平板准直器两平板不同间距对高纯锗探测器相对计数率的影响,模拟结果表明:对于低密度物质,平板准直器适宜间距3.5 cm;对于中等密度物质,平板准直器适宜间距4 cm;对于密度较大物质平板准直器适宜间距4.5 cm。
依據分段γ掃描裝置(SGS)探測效率刻度理論,推導齣探測器對單箇光子探測效率計算公式,併分析瞭前置平闆準直器對計算結果的影響,使用MCNP5軟件建立探測裝置模型,模擬瞭廢物桶處在不同位置時,前置平闆準直器兩平闆不同間距對高純鍺探測器相對計數率的影響,模擬結果錶明:對于低密度物質,平闆準直器適宜間距3.5 cm;對于中等密度物質,平闆準直器適宜間距4 cm;對于密度較大物質平闆準直器適宜間距4.5 cm。
의거분단γ소묘장치(SGS)탐측효솔각도이론,추도출탐측기대단개광자탐측효솔계산공식,병분석료전치평판준직기대계산결과적영향,사용MCNP5연건건립탐측장치모형,모의료폐물통처재불동위치시,전치평판준직기량평판불동간거대고순타탐측기상대계수솔적영향,모의결과표명:대우저밀도물질,평판준직기괄의간거3.5 cm;대우중등밀도물질,평판준직기괄의간거4 cm;대우밀도교대물질평판준직기괄의간거4.5 cm。
In this paper, through the analysis of sub -scale theory of detection efficiency of the gamma scanning device (SGS), calculated the single photon detection efficiency formula , and analyzed the front plate collimator using MCNP5 software detection devices model calculations , simulated waste barrel in a different position , and tabled different spacing of the front plate collimator for high -purity germanium detector count rate , the simula-tion results show that:suitable for low-density material, flat collimator spacing is 3.5 cm;for medium-den-sity substances, collimator suitable spacing is 4 cm;suitable for higher density material flat collimator spacing is 4.5 cm.
