Abstract
The design and performance of the ATLAS Inner Detector (ID) trigger algorithms running online on the High Level Trigger (HLT) processor farm for 13 TeV LHC collision data with high pileup are discussed. The HLT ID tracking is a vital component in all physics signatures in the ATLAS trigger for the precise selection of the rare or interesting events necessary for physics analysis without overwhelming the offline data storage in terms of both size and rate. To cope with the high interaction rates expected in the 13 TeV LHC collisions, the ID trigger was redesigned during the 2013-15 long shutdown. The performance of the ID trigger in Run 2 data from 13 TeV LHC collisions has been excellent and exceeded expectations, even at the very high interaction multiplicities observed at the end of data-taking in 2017. The detailed efficiencies and resolutions of the ID trigger in a wide range of physics signatures are presented for the Run 2 data. The superb performance of the ID trigger algorithms in these extreme pileup conditions demonstrates how the ID tracking continues to lie at the heart of the trigger performance to enable the ATLAS physics program, and will continue to do so in the future.
Highlights
The ATLAS experiment [1] at the LHC [2] is a general purpose detector designed to study a wide range of high-pT physics
For Run 2, starting in 2015, the ATLAS trigger system was upgraded to cope with the higher event rates and larger number of simultaneous proton-proton collisions delivered by the LHC
The Inner Detector (ID) tracking trigger is an essential part of the trigger system and is used to identify many different physics signatures while maintaining manageable recording rates
Summary
The ATLAS experiment [1] at the LHC [2] is a general purpose detector designed to study a wide range of high-pT physics. The trigger system [3] is responsible for selecting, in realtime, the events to be recorded and kept for further analysis. For Run 2, starting in 2015, the ATLAS trigger system was upgraded to cope with the higher event rates and larger number of simultaneous proton-proton collisions (pile-up) delivered by the LHC. The Inner Detector (ID) tracking trigger is an essential part of the trigger system and is used to identify many different physics signatures while maintaining manageable recording rates. The improvements made to the ID trigger for Run 2 are described here and performance results from the 2017 and 2018 data-taking are presented
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