The micro-hole- and -strip plate gas detector: experimental results

2001 IEEE Nuclear Science Symposium Conference Record (Cat. No.01CH37310) Pub Date : 2001-11-04 DOI:10.1109/NSSMIC.2001.1008501

J. Maia, J. Veloso, R. Morgado, J. D. dos Santos, C. Conde

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引用次数: 9

Abstract

We report the performance characteristics of a new microstructure, the Micro-Hole-and-Strip Plate (MHSP), operated initially as an X-ray proportional counter. The MHSP is a combination of the features of a microstrip plate (MSP) and a gas electron multiplier (GEM) in a single microstructure. Like the GEM, the MHSP is fabricated using flexible printed circuit board technology. The MHSP provides two independent charge-amplification stages: a first stage consisting of slotted holes, operated as a GEM, and a second stage, the MSP anodes, that also function as the final charge-collection electrodes. Two obvious benefits accrue from this design: for a given total gain, the MSP anode-to-cathode voltage can be maintained well below the breakdown threshold, and the charge-amplification stages are optically isolated, in anticipation of future applications as a photosensor. Full electron transmission and total gains up to 1000 were achieved, with slotted-hole gains as high as 14. The best energy resolution achieved thus far for 5.9-keV X-rays is 23%. Measurements of gains, electron transmission, and energy resolution, as functions of biasing voltages, are reported.

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微孔带板气体检测仪:实验结果

我们报告了一种新的微观结构的性能特征，微孔带板(MHSP)，最初作为x射线比例计数器操作。MHSP是微带板(MSP)和气体电子倍增器(GEM)在单一微观结构中的结合。与GEM一样，MHSP是使用柔性印刷电路板技术制造的。MHSP提供两个独立的电荷放大级:第一级由开槽孔组成，作为GEM，第二级由MSP阳极组成，也作为最终的电荷收集电极。这种设计有两个明显的好处:对于给定的总增益，MSP阳极到阴极电压可以保持在击穿阈值以下，并且电荷放大阶段是光学隔离的，预计未来应用于光传感器。实现了全电子传输和总增益高达1000，其中槽孔增益高达14。迄今为止，5.9 kev x射线的最佳能量分辨率为23%。测量增益，电子传输，和能量分辨率，作为偏置电压的功能，报告。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2001 IEEE Nuclear Science Symposium Conference Record (Cat. No.01CH37310)

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