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T: Fachverband Teilchenphysik
T 61: Experimentelle Methoden II
T 61.3: Vortrag
Mittwoch, 21. März 2018, 17:00–17:15, Z6 - SR 1.013
Measuring the Jet Energy Resolution with the Bisector Method in ATLAS — •Tanja Holm and Ian C. Brock — Physikalisches Institut Universität Bonn, Bonn, Germany
Jets play an important role in many physics processes at the LHC. Therefore a precise knowledge of its jet energy resolution (JER) is important. It is defined as the width of the energy distribution of a reconstructed jet with respect to its true energy.
The bisector method is one way of estimating the JER. It is a geometric approach to separate particle-level from detector-level contributions to the transverse momentum imbalance in dijet events. Particle-level imbalances mostly originate from initial-state radiation and therefore are expected to be isotropic in the transverse plane. Detector-level imbalances only occur in the direction of the jets. For this reason the imbalance vector is decomposed into a perpendicular and a parallel component with respect to the average direction of the jets ("jet axis"). The resolution perpendicular to the jet axis (particle level) is subtracted quadratically from the resolution parallel to the jet axis (particle + detector level), remaining therefore with the resolution originating from the detector. This talk will discuss the bisector method and its implementation for Run 2 of the LHC at ATLAS, where especially the enlarged number of pile-up events has to be considered.