This report presents a project for the upgrade of the Level-1 muon trigger in the Barrel - End Cap transition region (1.0<|eta|<1.3) of the ATLAS detector with RPC chambers. The ATLAS Level-1 muon trigger rate is dominated by fake triggers in the End Cap region (|eta|>1) caused by charged particles originating from secondary interactions downstream of the interaction point. After the LHC upgrade forseen for 2018, the Level-1 muon trigger rate would saturate the allocated bandwidth unless new measures are adopted to improve the rejection of fake triggers. ATLAS is going to improve the trigger selectivity in the region |eta|>1.3 with the New Small Wheel detector upgrade. To obtain a similar trigger selectivity in the Barrel - End Cap transition region, it is proposed to add new RPC chambers at the edge of the inner layer of the Barrel muon spectrometer. These chambers will be based on a three layer structure with thinner gas gaps and electrodes with respect to the ATLAS standard. New front-end electronics, integrating fast TDC capabilities will be used. A preliminary study based on 2012 data demonstrates that the new system could reject more than 90% of the fake triggers while maintaining high trigger efficiency. This will allow keeping a relatively low momentum threshold while matching the rate requirements of future LHC running.

L.Massa (2014). Proposal of upgrade of the ATLAS muon trigger in the barrel-endcap transition region with RPCs. POS PROCEEDINGS OF SCIENCE, TIPP2014(117), 1-8.

Proposal of upgrade of the ATLAS muon trigger in the barrel-endcap transition region with RPCs

MASSA, LORENZO
2014

Abstract

This report presents a project for the upgrade of the Level-1 muon trigger in the Barrel - End Cap transition region (1.0<|eta|<1.3) of the ATLAS detector with RPC chambers. The ATLAS Level-1 muon trigger rate is dominated by fake triggers in the End Cap region (|eta|>1) caused by charged particles originating from secondary interactions downstream of the interaction point. After the LHC upgrade forseen for 2018, the Level-1 muon trigger rate would saturate the allocated bandwidth unless new measures are adopted to improve the rejection of fake triggers. ATLAS is going to improve the trigger selectivity in the region |eta|>1.3 with the New Small Wheel detector upgrade. To obtain a similar trigger selectivity in the Barrel - End Cap transition region, it is proposed to add new RPC chambers at the edge of the inner layer of the Barrel muon spectrometer. These chambers will be based on a three layer structure with thinner gas gaps and electrodes with respect to the ATLAS standard. New front-end electronics, integrating fast TDC capabilities will be used. A preliminary study based on 2012 data demonstrates that the new system could reject more than 90% of the fake triggers while maintaining high trigger efficiency. This will allow keeping a relatively low momentum threshold while matching the rate requirements of future LHC running.
2014
L.Massa (2014). Proposal of upgrade of the ATLAS muon trigger in the barrel-endcap transition region with RPCs. POS PROCEEDINGS OF SCIENCE, TIPP2014(117), 1-8.
L.Massa
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/392032
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