共查询到19条相似文献,搜索用时 46 毫秒
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环形正负电子对撞机(circular electron-positron collider, CEPC)通过d E/dx的测量进行长寿命带电粒子的鉴别,要求对d E/dx的测量达到约3%的精度.但d E/dx的测量对带电粒子π/K,π/P和K/P各有一个分辨盲区,对应的横动量分别为1 GeV/c, 1.6 GeV/c和2 GeV/c.一种解决方案是采用高精度飞行时间(time of flight, TOF)探测器填补分辨盲区,探测器系统的时间分辨要求小于50 ps.针对这一要求本文提出一种小颗粒飞行时间探测器,具体方案为采用小块塑料闪烁体(1 cm×1 cm×0.3 cm)侧面耦合硅光电倍增管读出.介绍了该探测器的构建以及利用90 Sr电子准直源和高速波形采集电子学对该探测器的性能标定.结果显示,采用恒比定时法,该探测器的时间分辨约为48 ps,可以满足CEPC对飞行时间探测器的要求. 相似文献
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研究了基于硅光电倍增管(SiPM)双端读出的面积为10 cm ×10 cm的薄塑料闪烁体探测器的时间性能。239Pu放射源测试结果显示:(1)在多支SiPM串连读出方式下,随着SiPM数量的增加,探测器时间分辨逐渐变好;(2)在固定12支SiPM数量不变的情况下,并联支路越多,探测器时间分辨越差;(3)采用快时间塑料闪烁体并增加其厚度,可有效提高探测器时间分辨;(4)采用比束斑尺寸更大的塑料闪烁体,可有效提高探测器时间分辨的位置均匀性;(5)对于1 mm厚的EJ232塑料闪烁体探测器,在单端12支SiPM串行连接的情况下,可获得好于131 ps的时间分辨。这一研究对RIBLL2起始时间探测器的升级改造具有重要的指导意义。 相似文献
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北京谱仪Ⅱ经过1995年升级后,其TOF系统对Bhabha事例的电子时间分辨率是180ps[1],相对北京谱仪Ⅰ的330ps有了很大的改进.随着硬件性能的提高,其相应的软件系统(包括刻度,重建),特别是蒙特卡罗模拟,也必须作相应的改进.本文利用北京谱仪Ⅱ已获取的5000万J/ψ数据,对飞行时间计数器的时间分辨率进行认真的研究,通过比较现有的模拟数据和真实数据的结果,对飞行时间计数器的模拟进行改进,最后给出改进后的模拟数据和真实数据的比较结果,两者符合得很好. 相似文献
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介绍了一种铝制内椭球面反射镜闪烁薄膜探测器,对其探测效率、光收集效率和时间性能的测试. 结果分析表明采用1 μm厚的BC498闪烁薄膜探测器测量实验中超重反冲余核, 探测效率接近100%, 时间分辨好于200 ps, 其性能满足超重反冲余核时间测量的要求. A thin plastic scintillator film detector with an inner ellipsoidal reflection mirror made of aluminum is introduced. Detection efficiency and light collection efficiency of the detector have been investigated. The time resolution of the detector has been also studied. The testing results show that the detection efficiency of BC498 with the thickness of 1 micron to be used in the coming superheavy synthesis experiments is approximately 100%, and the time resolution is better than 200 ps (σ). The performances of the thin plastic scintillator film detector meet the requirements for the time measurement of the superheavy element synthesis. 相似文献
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用蒙特卡罗模拟的方法,研究了影响闪烁光纤时间分辨的物理因素,包括光子在光纤中的发射,传输,吸收和最后在光电倍增管输出端形成电泳冲等过程,并和实验结果进行了比较。 相似文献
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YU Yu-Hong XU Hua-Gen XU Hu-Shan ZHAN Wen-Long SUN Zhi-Yu GUO Zhong-Yan HU Zheng-Guo CHEN Jun-Ling TANG Shu-Wen 《中国物理C(英文版)》2009,33(9)
Timing and amplitude properties of a prototype scintillator TOF counter at an external target facility are studied with a cosmic rays test. The dependence of signal pulse height and time resolution on the coordinate along the scintillator TOF counter is investigated with two different discriminators. A time resolution of 165 ps can be achieved at the center of the counter with a constant fraction discriminator. Time resolution better than 150 ps is obtained at the center with a leading edge discriminator after time walk correction is applied for off-line analysis. 相似文献
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Timing and amplitude properties of a prototype scintillator TOF counter at an external target facility are studied with a cosmic rays test. The dependence of signal pulse height and time resolution on the coordinate along the scintillator TOF counter is investigated with two different discriminators. A time resolution of 165 ps can be achieved at the center of the counter with a constant fraction discriminator. Time resolution better than 150 ps is obtained at the center with a leading edge discriminator after time wall( correction is applied for off-line analysis. 相似文献
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