PbWO_4 Cherenkov light contribution to Hamamatsu S8148 and zinc sulfide-silicon avalanche photodiodes signals

F. Kocak; I. Tapan

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PbWO_4 Cherenkov light contribution to Hamamatsu S8148 and zinc sulfide-silicon avalanche photodiodes signals

机译：PbWO_4 Cherenkov光对Hamamatsu S8148和硫化锌-硅雪崩光电二极管信号的贡献

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Scintillation crystal-avalanche photodiode (APD) system is an important radiation detection technique. The lead tungstate (PbWO_4) is one of the scintillation crystal used in high-energy physics experiments. The light generated in the PbWO_4 crystal could be split into scintillation and Cherenkov components. GEANT4 simulation of the light generated by high-energy particles in the PbWO_4 crystal shows that up to 20% of the light generated in the crystals is a result of the Cherenkov mechanism. The mean signals of the APDs were simulated by Single Particle Monte Carlo technique for the incident light produced in the PbWO_4 crystal. The results show that the Cherenkov light contribution to the total signal is more than 20% for both the Hamamatsu S8148 and ZnS-Si APD structures placed at end of the crystal.

机译：闪烁晶体雪崩光电二极管（APD）系统是一种重要的辐射检测技术。钨酸铅（PbWO_4）是高能物理实验中使用的闪烁晶体之一。在PbWO_4晶体中产生的光可以分为闪烁和Cherenkov分量。对PbWO_4晶体中高能粒子产生的光的GEANT4模拟显示，晶体中产生的光的20％是Cherenkov机理的结果。 APD的平均信号通过单粒子蒙特卡罗技术模拟了PbWO_4晶体中产生的入射光。结果表明，放置在晶体末端的Hamamatsu S8148和ZnS-Si APD结构的Cherenkov光对总信号的贡献均超过20％。

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来源
《Nuclear instruments and methods in physics research》 |2010年第3期|P.398-399|共2页
作者
F. Kocak; I. Tapan;
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Uludag University, Department of Physics, 16059 Bursa, Turkey;

rnUludag University, Department of Physics, 16059 Bursa, Turkey;

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正文语种 eng
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lead-tungstate crystal; cherenkov mechanism; avalanche photodiodes; monte carlo simulation;

机译：钨酸铅晶体切伦科夫机制雪崩光电二极管;蒙特卡洛模拟;

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PbWO_4 Cherenkov light contribution to Hamamatsu S8148 and zinc sulfide-silicon avalanche photodiodes signals

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