Atlas monitored drift tube long-term stability and aging study performed for the first time with the gas-recirculation system planned for LHC

2003 IEEE Nuclear Science Symposium. Conference Record (IEEE Cat. No.03CH37515) Pub Date : 2003-10-19 DOI:10.1109/NSSMIC.2003.1352713

S. Zimmermann, C. Cernoch

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引用次数: 1

Abstract

The monitored drift tubes (MDTs) of the Atlas muon spectrometer have to sustain count rates up to 1500 Hz/cm and must be able to survive an accumulated charge of up to 0.6 C/cm during 10 years of operation. This paper presents results of aging studies carried out at the CERN Gamma Irradiation Facility GIF for the first time with a final Atlas muon chamber and a prototype of the gas recirculation system planned at LHC. A loss in pulse height was observed for MDTs under gas recirculation after an accumulated charge equivalent to only 1 year of LHC operation; the effect was traced to a silicone contamination from bad components in the gas recirculation system. Tubes operated with the classical one-pass, flushing mode did not show any evidence of aging, thus (re)validating the materials and components used in the MDT construction. Questions of long-term stability when recycling the major part of the operating gas could also be addressed by the measurements performed; results on this will also be discussed.

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Atlas首次在LHC的气体再循环系统中监测了漂移管的长期稳定性和老化情况

Atlas μ介子光谱仪的监测漂移管(MDTs)必须维持高达1500 Hz/cm的计数率，并且必须能够在10年的运行期间承受高达0.6 C/cm的累积电荷。本文介绍了首次在欧洲核子研究中心伽玛辐照设施GIF上进行的老化研究结果，其中包括最终的阿特拉斯μ子室和计划在大型强子对撞机进行的气体再循环系统的原型。在气体再循环条件下，累积电荷仅相当于LHC运行1年，观察到mdt脉冲高度的损失;这种影响可以追溯到气体再循环系统中不良组件的硅污染。使用传统的一次冲洗模式操作的管子没有显示任何老化的迹象，因此(重新)验证了MDT结构中使用的材料和组件。在回收大部分操作气体时的长期稳定性问题也可以通过所进行的测量来解决;这方面的结果也将加以讨论。

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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2003 IEEE Nuclear Science Symposium. Conference Record (IEEE Cat. No.03CH37515)

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