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微条气体室探测器 被引量:5

Micro-strip Gas Chamber (MSGC) Detectors
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摘要 本文从多丝正比室(MWPC)特点出发,详细介绍了MSGC的工作原理、结构设计原理、结构参数(包括衬底材料、微条材料、工作气体)的选择依据以及应用前景,并报道了MSGC的最新研究进展。 In this paper, the principle and the structure of micro-strip gas chamber (MSGC), which include the selection of the substrate materials, the strip materials and the operating gas, were reviewed. The future application of MDGCs, the limitation of their performances and the improvement were also discussed and reported.
作者 王林军 夏义本 张明龙 廖志辉 居建华
机构地区 上海大学材料科学与工程学院
出处 《量子电子学报》 CAS CSCD 北大核心 2002年第5期396-403,共8页 Chinese Journal of Quantum Electronics
基金 国家自然科学基金资助项目(编号:60072033)
关键词 微条气体室 成像 X射线探测器 MSGC 辐射探测器 多丝正比室 MWPC micro-strip gas chamber imaging system X-ray detectors
分类号 TN206 [电子电信—物理电子学]
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参考文献29

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同被引文献72

  • 1郑晓翠,李玉兰,来永芳,李金.气体电子倍增膜(GEM)探测器的读出方式[J].核电子学与探测技术,2007,27(1):89-92. 被引量:9
  • 2Chechik R, et al. First results on the GEM operated at low gas pressures[J]. Nucl Instrum Methods, 1998, A 419: 423.
  • 3Bressan A, et al. High gain operation of GEM in pure argon[J]. Nucl Instrum Methods, 1999, A 423: 123.
  • 4Bouianov O, et al. Foil geometry effects on GEM characteristics[J]. Nucl Instrum Methods, 2001,A 458: 700.
  • 5Breskin A, et al. Sealed GEM photomultiplier with a CsI photocathode: ion feedback and ageing[J]. Nucl Instrum Methods, 2002, A 478: 225.
  • 6Buzulutskov A,et al. The GEM photomultiplier operated with noble gas mixtures [J]. Nucl Instrum Methods, 2000,A443: 164.
  • 7Bellazzini R, et al. A two-stage, high gain microstrip detector[J]. Nucl Instrum Methods, 1999,A 425 : 220.
  • 8Bouianov O. et al. Progress in GEM simulation[J]. Nucl Instrum Methods, 2000. A 450: 277-287.
  • 9Tikhonov V, Veenhof R. GEM simulation methods development [J]. Nucl Instrum Methods,2002, A 478: 452.
  • 10Bondar A, et al. High- and low-pressure operation of the gas electron multiplier [J]. Nucl Instrum Methods, 1998,A 419: 419.

引证文献5

二级引证文献7

量子电子学报
2002年 第5期

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