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SIPM在脉冲光检测系统中的应用研究 被引量:6

Study on silicon photomultiplier(SIPM)in optical pulse measurement system
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摘要 为了实现硅光电倍增管(silicon photomultiplier,SIPM)对超出光子计数极限的微弱脉冲光信号的测量,建立了基于SIPM积分工作模式的脉冲光检测系统。测试了SIPM在同一光信号照射下,偏置电压与增益以及信噪比之间的关系,并测试了同一增益条件下,SIPM对不同光信号的响应特性。结果表明:SIPM在积分工作模式下,其增益可以达到104以上,并随着偏置电压的增加而指数增长;其信噪比也随着电压的增加而增加,在光强比较微弱的情况下,SIPM对光强是线性响应的。所设计的系统可以在一定程度上替代光电倍增管进行微弱脉冲光信号的测量。 In order to utilize silicon photomultiplier (SIPM) to measure the weak optical pulses exceeding photo counting limit, a SIPM-based-on optical pulse measurement system was established. Firstly, we test the relationships between the gain and the SIPM bias voltage, as well as the signal to noise ratio and SIPM bias voltage, under the condition of the same light. Then, under the same bias voltage, the optical intensity response characteristic of SIPM was investigated. The results show that, when the SIPM works in the integration mode, its gain is larger than 10^4 , and increases in exponential growth with the SIPM bias voltage. The SIPM has a linear response of the weak optical pulses. In a word, this SIPM-based-on optical signal measurement system can be used to measure weak optical pulses instead of photomultiplier tube's.
作者 陈忠祥 武晓东 吴云良 王策 裴智果
机构地区 中国科学院苏州生物医学工程技术研究所
出处 《光学仪器》 2014年第6期476-480,485,共6页 Optical Instruments
基金 江苏省产学研资助项目(BY2011185)
关键词 硅光电倍增管(SIPM) 多像素光子计数器(MPPC) 微弱光检测 silicon photomultiplier (SIPM) multi-pixel photon counter (MPPC) weakoptical measurement
分类号 TN29 [电子电信—物理电子学] TH741 [机械工程—光学工程]
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同被引文献46

  • 1卢荣德,杜英磊.微弱信号检测技术综合专题实验[J].电气电子教学学报,2005,27(3):78-82. 被引量:6
  • 2孙志斌,陈佳圭.锁相放大器的新进展[J].物理,2006,35(10):879-884. 被引量:38
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  • 4韩德俊,张国青,等.一种新结构硅光电倍增器(SiPM)及其应用研究[J].红外与激光工程,2010,39:23-26.I.
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  • 6Herbert D J, Moehrs S, et al. The Silicon Photomulti- plier for application to high - resolution Positron Emis- sion Tomography [J]. Nuclear Instruments and Meth- ods in Physics Research A, 2007, 573 : 84 - 87.
  • 7Iori M, Atakisi I O, et al. SiPM application for a de- tector for UHE neutrinos tested at Sphinx station [J]. Nuclear Instruments and Methods in Physics Research A, 2014, 742:265-268.
  • 8Wuerfel J U. ,Pychlau C, et al. Mammodos - In - Vivo Dosimetry in Mammography [C]. 2008 IEEE Nuclear Science Symposium, 2008.
  • 9Hyunjun Yoo, Segyeong Joo, et al. Optimal design of a CsI(T1) crystal in a SiPM based compact radiation sensor [J]. Radiation Measurements, 2015, 82 : 102 - 107.
  • 10Chankyu Kim, Hyoungtaek Kim, et al. Replacemet of a photomuhiplier tube in a 2 - inch thallium - doped sodium iodide gamma spectrometer with silicon photo- multiplier and a light guide [J]. Nuclear Engineering and Technology, 2015, 47:479 - 487.

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光学仪器
2014年 第6期

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