Reconstruction algorithm study of 2D interpolating resistive readout structure

XIU Qing-Lei; DONG Ming-Yi; LIU Rong-Guang; ZHANG Jian; OUYANG Qun; CHEN Yuan-Bo

doi:10.1088/1674-1137/37/10/106002

Chinese Physics C> 2013, Vol. 37> Issue(10) : 106002 DOI: 10.1088/1674-1137/37/10/106002

Reconstruction algorithm study of 2D interpolating resistive readout structure

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Systematic investigations including both simulation and prototype tests have been done about the interpolating resistive readout structure with GEM (Gaseous Electron Multiplier) detector. From the simulation, we have a good knowledge of the process of charge diffusion on the surface of the readout plane and develop several reconstruction methods to determine the hit position. The total signal duration time of a typical event with the readout structure was about several hundred nanoseconds, which implied an ideal count rate up to 10⁶ Hz. A stable working prototype was designed and fabricated after the simulation. Using ⁵⁵Fe 5.9 keV X-ray, the image performance of the prototype was examined with flat field image and some special geometry shapes, meanwhile, an energy resolution of about 17% was obtained.

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XIU Qing-Lei, DONG Ming-Yi, LIU Rong-Guang, ZHANG Jian, OUYANG Qun and CHEN Yuan-Bo. Reconstruction algorithm study of 2D interpolating resistive readout structure[J]. Chinese Physics C, 2013, 37(10): 106002. doi: 10.1088/1674-1137/37/10/106002

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Received: 2012-12-06
Revised: 2013-03-07

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通讯作者: 陈斌, bchen63@163.com

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沈阳化工大学材料科学与工程学院沈阳 110142

Reconstruction algorithm study of 2D interpolating resistive readout structure

Corresponding author: XIU Qing-Lei,

Received Date: 2012-12-06

Accepted Date: 2013-03-07

Available Online: 2013-10-05

Abstract: Systematic investigations including both simulation and prototype tests have been done about the interpolating resistive readout structure with GEM (Gaseous Electron Multiplier) detector. From the simulation, we have a good knowledge of the process of charge diffusion on the surface of the readout plane and develop several reconstruction methods to determine the hit position. The total signal duration time of a typical event with the readout structure was about several hundred nanoseconds, which implied an ideal count rate up to 10⁶ Hz. A stable working prototype was designed and fabricated after the simulation. Using ⁵⁵Fe 5.9 keV X-ray, the image performance of the prototype was examined with flat field image and some special geometry shapes, meanwhile, an energy resolution of about 17% was obtained.

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Reconstruction algorithm study of 2D interpolating resistive readout structure

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