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Preprint
Report number arXiv:2411.07149
Title Transformers for Charged Particle Track Reconstruction in High Energy Physics
Author(s) Van Stroud, Samuel (U. Coll. London) ; Duckett, Philippa (U. Coll. London) ; Hart, Max (U. Coll. London) ; Pond, Nikita (U. Coll. London) ; Rettie, Sébastien (U. Coll. London ; CERN) ; Facini, Gabriel (U. Coll. London) ; Scanlon, Tim (U. Coll. London)
Document contact Contact: arXiv
Imprint 2024-11-11
Number of pages 14
Subject category hep-ex ; Particle Physics - Experiment
Abstract Reconstructing charged particle tracks is a fundamental task in modern collider experiments. The unprecedented particle multiplicities expected at the High-Luminosity Large Hadron Collider (HL-LHC) pose significant challenges for track reconstruction, where traditional algorithms become computationally infeasible. To address this challenge, we present a novel learned approach to track reconstruction that adapts recent advances in computer vision and object detection. Our architecture combines a Transformer hit filtering network with a MaskFormer reconstruction model that jointly optimises hit assignments and the estimation of the charged particles' properties. Evaluated on the TrackML dataset, our best performing model achieves state-of-the-art tracking performance with 97% efficiency for a fake rate of 0.6%, and inference times of 100ms. Our tunable approach enables specialisation for specific applications like triggering systems, while its underlying principles can be extended to other reconstruction challenges in high energy physics. This work demonstrates the potential of modern deep learning architectures to address emerging computational challenges in particle physics while maintaining the precision required for groundbreaking physics analysis.
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Copyright/License preprint: (License: CC BY 4.0)



 


 Element opprettet 2024-11-14, sist endret 2024-11-22


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