Micromegas prototypes with thermo-bond film separators

GUAN Liang; TANG Hao-Hui; GUO Jun-Jun; WANG Xiao-Lian; XU Zi-Zong; ZHAO Tian-Chi

doi:10.1088/1674-1137/35/2/011

Chinese Physics C> 2011, Vol. 35> Issue(2) : 163-168 DOI: 10.1088/1674-1137/35/2/011

Micromegas prototypes with thermo-bond film separators

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Abstract：
In this paper we report the results of Micromegas prototypes constructed by attaching micromesh to an anode using thermo-bond films. The excellent metal attaching ability and good dielectical property of this kind of film make it a promising material to be used as avalanche gap spacers. Several prototypes are successfully made. The electron transmission properties are first studied and then the gas gain is measured in argon-isobutane mixtures. The maximum gain of more than 10⁴ is easily obtained. The energy resolutions for ⁵⁵Fe 5.9 keV K_α ray can be better than 20% over one magnitude in gain for different operational gas mixtures and the best energy resolution of 13.7% (FWHM) can be achieved with the gas mixture of 94% argon concentration. The preliminary test results of the prototypes with sensitive area of 45 mm×45 mm without internal support show good uniformity across the sensitive area.
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GUAN Liang, TANG Hao-Hui, GUO Jun-Jun, WANG Xiao-Lian, XU Zi-Zong and ZHAO Tian-Chi. Micromegas prototypes with thermo-bond film separators[J]. Chinese Physics C, 2011, 35(2): 163-168. doi: 10.1088/1674-1137/35/2/011

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Received: 2010-05-17
Revised: 2010-06-02

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沈阳化工大学材料科学与工程学院沈阳 110142

Micromegas prototypes with thermo-bond film separators

Received Date: 2010-05-17
Accepted Date: 2010-06-02
Available Online: 2011-02-05

Abstract: In this paper we report the results of Micromegas prototypes constructed by attaching micromesh to an anode using thermo-bond films. The excellent metal attaching ability and good dielectical property of this kind of film make it a promising material to be used as avalanche gap spacers. Several prototypes are successfully made. The electron transmission properties are first studied and then the gas gain is measured in argon-isobutane mixtures. The maximum gain of more than 10⁴ is easily obtained. The energy resolutions for ⁵⁵Fe 5.9 keV K_α ray can be better than 20% over one magnitude in gain for different operational gas mixtures and the best energy resolution of 13.7% (FWHM) can be achieved with the gas mixture of 94% argon concentration. The preliminary test results of the prototypes with sensitive area of 45 mm×45 mm without internal support show good uniformity across the sensitive area.