Optimization of the Resistive Plate Chamber operation with a closed loop gas system at the Large Hadron Collider experiments M. Capeans, I. Glushkov, R.

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Presentation transcript:

Optimization of the Resistive Plate Chamber operation with a closed loop gas system at the Large Hadron Collider experiments M. Capeans, I. Glushkov, R. Guida, S. Haider, F. Hahn CERN Degradation of the RPC Gas Mixture under Irradiation Resistive Plate Chambers (RPCs): Relatively low production cost High time resolution (~1 ns) Suitable spatial resolution (~1 cm) Gas mixture: C 2 H 2 F 4 - iC 4 H 10 - SF 6 [ %] +0.1% water vapour (to control the bakelite resistivity) Six CMS double gap RPC High gamma radiation flux (~cGy/h) over large area at the CERN GIF ( 137 Cs source) Small closed-loop gas system, with same functionalities as the LHC gas systems Parallel characterization of different impurity absorbers RPC performance monitored in terms of current, HV stability, bakelite resistivity Extensively employed at LHC: The large detector volume (~16 m 3 in ATLAS and CMS) and the use of a relatively expensive gas mixture make a closed-loop circulation system unavoidable. Nowadays with only 5 % of fresh gas replenishing rate, the cost is about 500 €/day Previous long-term tests have shown that: Several extra-components appear in the return gas of irradiated RPCs Detector performances can be affected if impurities are not properly removed A systematic study of the RPC gas mixture has been performed. Extra components created in the irradiated gas are identified and a strategy to filter them efficiently in being investigated. Tests continue to find the conditions to reliably operate RPC at the LHC in optimized cost-effective, closed-loop, gas systems. GC/MS results Experimental set-up and RPCs performance checks Integrated charge to date In the first hours of operation purifiers can also absorb some components of the main mixture or enhance other impurities (ex Ni-Al 2 O 3 ) changing the mixture. Solved with an optimized conditioning phase. Mixture back to normal  purifier ready for Run Filtering Capacity of 3 tested Absorbers The amount of some impurities can be enhanced after a period of operation and then disappear. Bakelite resistivity vs time All impurities are removed (for a certain time) No effect: impurities are not filtered F - is created and it is very reactive. Effects on the material already seen (bakelite surface etching, NaF deposits, material corrosion). Important to be filtered. F - is effectively filtered by many Absorbers. The MolSieve Absorber reduces F - by a factor ~100. 1:100 Analysis of the composition of used absorbers show the presence of F -. To verify if this affects the purification effectiveness at long-term. Cu (Basf R11) Gas mixtures with other concentrations of iC 4 H 10 and SF 6 have been tested to try reducing F- production. No clear benefits are observed. Only a lower working point (i.e. high voltage) reduces effectively the amount of impurities. Optimization of the Closed-loop Gas System Operation Fluoride Electrode Results – Monitoring F - creation F-F- A relevant amount of F - (and Na) has also been observed on the internal electrode surface May09 D. Letant-Delrieux, M. Taborelli (TE-VSC)