Study of top-quark reconstruction with LCD Fast Simulation
Masako Iwasaki (U. of Oregon)
TL;DR
This paper evaluates top-quark reconstruction techniques at a 500 GeV linear collider using LCD Fast Simulation, comparing detector configurations and calorimeter granularity effects on jet reconstruction accuracy.
Contribution
It provides a comparative analysis of top-quark reconstruction performance for different LCD detector designs and calorimeter granularities using fast simulation methods.
Findings
Charged and neutral cluster separation performance impacts jet reconstruction.
Detector size and calorimeter granularity influence top-quark reconstruction accuracy.
Reconstruction methods vary in effectiveness between LCD Small and LCD Large detectors.
Abstract
We report the study of top-quark reconstruction in events at a 500 GeV linear collider using the LCD Fast Simulator. The final states of 6 jets as well as 4 jets and lepton are used. In order to reconstruct the jets, the performance of charged and neutral cluster separation are studied. We compare top-quark reconstruction for the LCD Small and LCD Large detectors, including the effect of varying the calorimeter granularity.
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Taxonomy
TopicsMedical Imaging Techniques and Applications · Radiomics and Machine Learning in Medical Imaging · Particle physics theoretical and experimental studies