Litcius/Paper detail

Performance studies of Time-of-Flight detectors at LHC

K. Černý, T. Sýkora, M. Taševský, R. Žlebč𝚤k

2021Journal of Instrumentation19 citationsDOIOpen Access PDF

Abstract

We present results of a toy model study of performance of the Time-of-Flight detectors integrated into forward proton detectors. The goal of the ToF device is to suppress effects of additional soft processes (so called pile-up) accompanying the hard-scale central diffractive event, characterized by two tagged leading protons, one on each side from the interaction point. The method of mitigation of the pile-up effects exemplified in this study is based on measuring a difference between arrival times of these leading protons at the forward proton detectors and hence estimate the z-coordinate of the production vertex. We evaluate effects of the the pile-up background by studying in detail its components, and estimate the performance of the ToF method as a function of the time and spatial resolution of the ToF device and of the number of pile-up interactions per bunch crossing. We also propose a new observable with a potential to efficiently separate central diffractive signal from the harsh pile-up environment.

Topics & Concepts

DetectorPhysicsTime of flightLarge Hadron ColliderObservableInteraction pointProtonPileVertex (graph theory)SIGNAL (programming language)Function (biology)OpticsNuclear physicsComputer scienceAlgorithmBiologyTheoretical computer scienceProgramming languageEvolutionary biologyGraphQuantum mechanicsParticle physics theoretical and experimental studiesParticle Detector Development and PerformanceDark Matter and Cosmic Phenomena