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This book presents a search for leptoquark particles in final states with two tau leptons and a cross-section measurement of the tau lepton pair production, performed with the ATLAS experiment at the Large Hadron Collider. Measurements of B-hadron decays to D(*)τν have shown increased rates relative to the corresponding decays to lighter leptons, suggesting the existence of leptoquark particles more strongly coupled to third generation fermions. This makes the production of tau lepton pairs a privileged final state for their detection, as well as a relevant process to probe electroweak properties. The results presented exploit the Run 2 dataset (2015-2018) of pp collisions recorded by the ATLAS experiment at a centre of mass energy of 13 TeV. The search for leptoquark particles sets the most stringent constraints on such models in the non-resonant production mode, while the cross-section measurement of tau lepton pair production is the first one performed in high energy proton-proton collisions. One of the most compelling aspects of both analyses is the estimate of a sizable background of events with hadronic jets mis-reconstructed as fake tau leptons. This is addressed through a novel technique — the Universal Fake Factor method — extensively detailed in the text. This book also describes the upgrade of the Muon Trigger system of the ATLAS experiment in preparation for the High-Luminosity LHC program, with a focus on the author’s involvement in the design of the Sector Logic sub-system.
List of contents
Theoretical foundations and motivations.- The experimental setup: LHC, ATLAS and object reconstruction.- The Universal Fake Factor method for the estimate of fake taus.- Search for leptoquark particles in final states with tau lepton pairs.- Cross section measurement of tau-lepton pair production.- Readout firmware for the Phase-II L0 Muon barrel trigger.- What’s next? Tau leptons at High-Luminosity LHC and future colliders.- Conclusions.
About the author
Giovanni Padovano is an experimental particle physicist working in the ATLAS Collaboration at the CERN Large Hadron Collider. His research focuses on physics analyses with tau lepton final states. He is currently studying the production of Higgs boson pairs, in the final state involving two bottom quarks and two tau leptons (HH â’ bbðð). He received his Ph.D. in Particle Physics from Sapienza University of Rome, where he also obtained his M.Sc. and B.Sc. in Physics. During his Ph.D., he studied the production of tau lepton pairs in proton-proton collisions (ppâ’ ðð), performing a cross-section measurement of this process with several implications on new physics constraints. He has been a visiting researcher at University College London and at the University of Oxford and has spent several periods of research at CERN.
Summary
This book presents a search for leptoquark particles in final states with two tau leptons and a cross-section measurement of the tau lepton pair production, performed with the ATLAS experiment at the Large Hadron Collider. Measurements of B-hadron decays to D(*)τν have shown increased rates relative to the corresponding decays to lighter leptons, suggesting the existence of leptoquark particles more strongly coupled to third generation fermions. This makes the production of tau lepton pairs a privileged final state for their detection, as well as a relevant process to probe electroweak properties. The results presented exploit the Run 2 dataset (2015-2018) of pp collisions recorded by the ATLAS experiment at a centre of mass energy of 13 TeV. The search for leptoquark particles sets the most stringent constraints on such models in the non-resonant production mode, while the cross-section measurement of tau lepton pair production is the first one performed in high energy proton-proton collisions. One of the most compelling aspects of both analyses is the estimate of a sizable background of events with hadronic jets mis-reconstructed as fake tau leptons. This is addressed through a novel technique — the Universal Fake Factor method — extensively detailed in the text. This book also describes the upgrade of the Muon Trigger system of the ATLAS experiment in preparation for the High-Luminosity LHC program, with a focus on the author’s involvement in the design of the Sector Logic sub-system.
