HIRFL-CSR 外靶终端上硅微条探测器阵列的搭建

汪鹏飞; 李占奎; 李海霞; 章学恒; 赵兴文; 王秀华; 谭继廉; 刘凤琼; 李荣华; 王柱生; 陈翠红; 杨磊; 祖凯玲; 戎欣娟; 李春艳; 卢子伟

doi:10.11804/NuclPhysRev.31.01.063

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HIRFL-CSR 外靶终端上硅微条探测器阵列的搭建

汪鹏飞, 李占奎, 李海霞, 章学恒, 赵兴文, 王秀华, 谭继廉, 刘凤琼, 李荣华, 王柱生, 陈翠红, 杨磊, 祖凯玲, 戎欣娟, 李春艳, 卢子伟

文章导航 > 原子核物理评论 > 2014 > 31(1): 63-68

汪鹏飞, 李占奎, 李海霞, 章学恒, 赵兴文, 王秀华, 谭继廉, 刘凤琼, 李荣华, 王柱生, 陈翠红, 杨磊, 祖凯玲, 戎欣娟, 李春艳, 卢子伟. HIRFL-CSR 外靶终端上硅微条探测器阵列的搭建[J]. 原子核物理评论, 2014, 31(1): 63-68. doi: 10.11804/NuclPhysRev.31.01.063

引用本文:

WANG Pengfei, LI Zhankui, LI Haixia, ZHANG Xueheng, ZHAO Xingwen, WANG Xiuhua, TAN Jilian, LIU Fengqiong, LI Ronghua, WANG Zhusheng, CHEN Cuihong, YANG Lei, ZU Kailing, RONG Xinjuan, LI Chunyan, LU Ziwei. Build-up of the Silicon Micro-strip Detector Array in ETF of HIRFL-CSR[J]. Nuclear Physics Review, 2014, 31(1): 63-68. doi: 10.11804/NuclPhysRev.31.01.063

Citation:

WANG Pengfei, LI Zhankui, LI Haixia, ZHANG Xueheng, ZHAO Xingwen, WANG Xiuhua, TAN Jilian, LIU Fengqiong, LI Ronghua, WANG Zhusheng, CHEN Cuihong, YANG Lei, ZU Kailing, RONG Xinjuan, LI Chunyan, LU Ziwei. Build-up of the Silicon Micro-strip Detector Array in ETF of HIRFL-CSR[J]. Nuclear Physics Review, 2014, 31(1): 63-68. doi: 10.11804/NuclPhysRev.31.01.063

HIRFL-CSR 外靶终端上硅微条探测器阵列的搭建

doi: 10.11804/NuclPhysRev.31.01.063

中国科学院近代物理研究所,兰州730000;
中国科学院大学,北京100049

Build-up of the Silicon Micro-strip Detector Array in ETF of HIRFL-CSR

Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China;

摘要: 硅微条探测器因具有很强的位置分辨率与能量分辨率而在世界各大核物理实验室得到广泛应用。中国科学院近代物理研究所研制了性能优越、位置精度达到0.5 mmx0.5 mm的双面硅微条探测器，用于HIRFL-CSR 的外靶实验终端谱仪(ETF) 上，用作径迹测量以及ΔE-E 望远镜系统ΔE 的探测。硅微条探测器体积小、集成度高，利用柔性印刷电路板(FPCB) 引出信号，配合ASIC 芯片的前端电路，能够方便地给出每一条的能量信息和位置信息。在此详细阐述了在HIRFL-CSR 的ETF 上双面硅微条探测器阵列的搭建，并测量了放射源在真空中探测单元的能量分辨本领。结果表明，该硅条探测器的每个探测单元对5~9 MeV能量的粒子的能量分辨率在1% 左右。Silicon micro-strip detectors have been widely used in the world-famous nuclear physics laboratories due to their better position resolution and energy resolution. Double-sided silicon micro-strip detectors with a position resolution of 0.5 mm0.5 mm, have been fabricated in the IMP(Institute of Moder Physics,CAS) by using microelectronics technology. These detectors have been used in the ETF (External Target Facility) of HIRFL-CSR, as ΔE detectors of the ΔE-E telescope system and the track detectors. With the help of flexibility printed circuit board (FPCB) and the integrated ASIC chips, a compact multi-channel front-end electronic board has been designed to fulfill the acquisition of the energy and position information of the Silicon micro-strip detectors. It is described in this paper that the build-up of the Silicon micro-strip detector array in ETF of HIRFL-CSR, the determination of the energy resolution of the detector units, and the energy resolution of approximately 1% obtained for 5~9 MeV particles in vacuum.
- 硅微条探测器阵列 /
- 前端ASIC /
- 柔性印刷电路板 /
- 能量分辨率
Abstract: Silicon micro-strip detectors have been widely used in the world-famous nuclear physics laboratories due to their better position resolution and energy resolution. Double-sided silicon micro-strip detectors with a position resolution of 0.5 mm0.5 mm, have been fabricated in the IMP(Institute of Moder Physics,CAS) by using microelectronics technology. These detectors have been used in the ETF (External Target Facility) of HIRFL-CSR, as ΔE detectors of the ΔE-E telescope system and the track detectors. With the help of flexibility printed circuit board (FPCB) and the integrated ASIC chips, a compact multi-channel front-end electronic board has been designed to fulfill the acquisition of the energy and position information of the Silicon micro-strip detectors. It is described in this paper that the build-up of the Silicon micro-strip detector array in ETF of HIRFL-CSR, the determination of the energy resolution of the detector units, and the energy resolution of approximately 1% obtained for 5~9 MeV particles in vacuum.
- silicon micro-strip detector array /
- front-end ASIC /
- flexibility printed circuit board /
- energy resolution

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HIRFL-CSR 外靶终端上硅微条探测器阵列的搭建

doi: 10.11804/NuclPhysRev.31.01.063

中国科学院近代物理研究所,兰州730000;

中国科学院大学,北京100049

收稿日期: 1900-01-01
修回日期: 1900-01-01
刊出日期: 2014-03-20

关键词:

硅微条探测器阵列 /

前端ASIC /

柔性印刷电路板 /

能量分辨率

摘要: 硅微条探测器因具有很强的位置分辨率与能量分辨率而在世界各大核物理实验室得到广泛应用。中国科学院近代物理研究所研制了性能优越、位置精度达到0.5 mmx0.5 mm的双面硅微条探测器，用于HIRFL-CSR 的外靶实验终端谱仪(ETF) 上，用作径迹测量以及ΔE-E 望远镜系统ΔE 的探测。硅微条探测器体积小、集成度高，利用柔性印刷电路板(FPCB) 引出信号，配合ASIC 芯片的前端电路，能够方便地给出每一条的能量信息和位置信息。在此详细阐述了在HIRFL-CSR 的ETF 上双面硅微条探测器阵列的搭建，并测量了放射源在真空中探测单元的能量分辨本领。结果表明，该硅条探测器的每个探测单元对5~9 MeV能量的粒子的能量分辨率在1% 左右。Silicon micro-strip detectors have been widely used in the world-famous nuclear physics laboratories due to their better position resolution and energy resolution. Double-sided silicon micro-strip detectors with a position resolution of 0.5 mm0.5 mm, have been fabricated in the IMP(Institute of Moder Physics,CAS) by using microelectronics technology. These detectors have been used in the ETF (External Target Facility) of HIRFL-CSR, as ΔE detectors of the ΔE-E telescope system and the track detectors. With the help of flexibility printed circuit board (FPCB) and the integrated ASIC chips, a compact multi-channel front-end electronic board has been designed to fulfill the acquisition of the energy and position information of the Silicon micro-strip detectors. It is described in this paper that the build-up of the Silicon micro-strip detector array in ETF of HIRFL-CSR, the determination of the energy resolution of the detector units, and the energy resolution of approximately 1% obtained for 5~9 MeV particles in vacuum.

English Abstract

Build-up of the Silicon Micro-strip Detector Array in ETF of HIRFL-CSR

Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China;

Received Date: 1900-01-01
Rev Recd Date: 1900-01-01
Publish Date: 2014-03-20

Keywords:

Abstract: Silicon micro-strip detectors have been widely used in the world-famous nuclear physics laboratories due to their better position resolution and energy resolution. Double-sided silicon micro-strip detectors with a position resolution of 0.5 mm0.5 mm, have been fabricated in the IMP(Institute of Moder Physics,CAS) by using microelectronics technology. These detectors have been used in the ETF (External Target Facility) of HIRFL-CSR, as ΔE detectors of the ΔE-E telescope system and the track detectors. With the help of flexibility printed circuit board (FPCB) and the integrated ASIC chips, a compact multi-channel front-end electronic board has been designed to fulfill the acquisition of the energy and position information of the Silicon micro-strip detectors. It is described in this paper that the build-up of the Silicon micro-strip detector array in ETF of HIRFL-CSR, the determination of the energy resolution of the detector units, and the energy resolution of approximately 1% obtained for 5~9 MeV particles in vacuum.

引用本文:

Citation:

WANG Pengfei, LI Zhankui, LI Haixia, ZHANG Xueheng, ZHAO Xingwen, WANG Xiuhua, TAN Jilian, LIU Fengqiong, LI Ronghua, WANG Zhusheng, CHEN Cuihong, YANG Lei, ZU Kailing, RONG Xinjuan, LI Chunyan, LU Ziwei. Build-up of the Silicon Micro-strip Detector Array in ETF of HIRFL-CSR[J]. Nuclear Physics Review, 2014, 31(1): 63-68. doi: 10.11804/NuclPhysRev.31.01.063