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首页> 外文期刊>Nuclear Instruments & Methods in Physics Research >Design and characterization of a real time particle radiography system based on scintillating optical fibers
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Design and characterization of a real time particle radiography system based on scintillating optical fibers

机译:基于闪烁光纤的实时粒子射线照相系统的设计与表征

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摘要

The fabrication and characterization of a charged particle imaging system composed of a tracker and a residual range detector (RRD) is described. The tracker is composed of four layers of scintillating fibers (SciFi), 500 μm side square section, arranged to form two planes orthogonal to each other. The fibers are coupled to two Multi-Pixel Photon Counter (MPPC) arrays by means of a channel reduction system patented by the Istituto Nazionale di Fisica Nucleare (INFN) (Presti, 2015) [1]. Sixty parallel layers of the same fibers used in the tracker compose the RRD. The various layers are optically coupled to a MPPC array by means of wavelength shifting (WLS) fibers. The sensitive area of the two detectors is 9 × 9 cm~2. The results of the measurements, acquired by the prototypes with CATANA (Cirrone, 2008) [2] proton beam, and a comparison with the simulations of the detectors are presented.
机译:描述了由跟踪器和剩余距离检测器(RRD)组成的带电粒子成像系统的制造和特性。跟踪器由四层闪烁纤维(SciFi)组成,侧方截面为500μm,排列成两个相互正交的平面。光纤通过由国际核电研究所(INFN)授予专利的通道减少系统(Presti,2015)耦合到两个多像素光子计数器(MPPC)阵列(Presti,2015)。跟踪器中使用的60根平行的平行纤维层构成了RRD。各个层通过波长移位(WLS)光纤光学耦合到MPPC阵列。两个探测器的敏感区域为9×9 cm〜2。给出了用CATANA原型获得的测量结果(Cirrone,2008年)[2]质子束,并与探测器的仿真结果进行了比较。

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