Study of measuring methods on spatial resolution of a GEM imaging   detector

Xin-Yu Lu; Rui-Rui Fan; Yuan-Bo Chen; Qun Ouyang; Rong-Guang Liu; Peng; Liu; Hui-Rong Qi; Jian Zhang; Ping-Ping Zhao; Dong-Xu Zhao; Yu-Bin Zhao,; Hong-Yu Zhang; Hua-Yi Sheng; Li-Yuan Dong

arXiv:1105.4985·physics.ins-det·May 28, 2015

Study of measuring methods on spatial resolution of a GEM imaging detector

Xin-Yu Lu, Rui-Rui Fan, Yuan-Bo Chen, Qun Ouyang, Rong-Guang Liu, Peng, Liu, Hui-Rong Qi, Jian Zhang, Ping-Ping Zhao, Dong-Xu Zhao, Yu-Bin Zhao,, Hong-Yu Zhang, Hua-Yi Sheng, Li-Yuan Dong

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TL;DR

This paper identifies limitations in current methods for measuring the spatial resolution of GEM imaging detectors and proposes improved techniques that yield more accurate measurements through theoretical and experimental validation.

Contribution

The paper introduces an improved measurement method for GEM detector spatial resolution, overcoming limitations of existing approaches with theoretical analysis and experimental verification.

Findings

01

Enhanced measurement accuracy of spatial resolution

02

Validation of improved methods through experiments

03

Overcoming limitations of common measurement techniques

Abstract

In this paper, limitations of the common method measuring intrinsic spatial resolution of the GEM imaging detector are presented. Through theoretical analysis and experimental verification, we have improved the common method to avoid these limitations. Using these improved methods, more precise measurement of intrinsic spatial resolution are obtained.

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