重构强子衰变头轻子的统一机器学习方法

IF 7.2 2区 物理与天体物理 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Laurits Tani , Nalong-Norman Seeba , Hardi Vanaveski , Joosep Pata , Torben Lange
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引用次数: 0

摘要

头轻子是研究希格斯玻色子和电弱玻色子产生的重要工具,无论是在粒子物理标准模型之内还是之外。精确重建和识别强子衰变的头轻子是当前和未来高能物理实验的关键任务。鉴于射流标签技术的进步,我们展示了如何在多任务机器学习设置中将头轻子重构分解为头识别、运动学重构和衰变模式分类。基于电子-正电子碰撞数据集的完整探测器模拟和重构,我们展示了常见的射流标记架构可以有效地用于这些子任务。所有测试模型的动量分辨率都在 2-3% 之间,而重建单个衰变模式的精度则在 80-95% 之间。我们发现粒子转换器(ParticleTransformer)是表现最好的方法,明显优于启发式基线。本文还介绍了用于开发 tau 重建算法的新的公开 Fuτure 数据集。这有助于进一步研究 ML 模型对领域变化的适应能力,以及在此类任务中对基础模型的有效使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A unified machine learning approach for reconstructing hadronically decaying tau leptons
Tau leptons serve as an important tool for studying the production of Higgs and electroweak bosons, both within and beyond the Standard Model of particle physics. Accurate reconstruction and identification of hadronically decaying tau leptons is a crucial task for current and future high energy physics experiments. Given the advances in jet tagging, we demonstrate how tau lepton reconstruction can be decomposed into tau identification, kinematic reconstruction, and decay mode classification in a multi-task machine learning setup. Based on an electron-positron collision dataset with full detector simulation and reconstruction, we show that common jet tagging architectures can be effectively used for these sub-tasks. We achieve comparable momentum resolutions of 2–3% with all the tested models, while the precision of reconstructing individual decay modes is between 80–95%. We find ParticleTransformer to be the best-performing approach, significantly outperforming the heuristic baseline. This paper also serves as an introduction to a new publicly available Fuτure dataset for the development of tau reconstruction algorithms. This allows to further study the resilience of ML models to domain shifts and the efficient use of foundation models for such tasks.
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来源期刊
Computer Physics Communications
Computer Physics Communications 物理-计算机:跨学科应用
CiteScore
12.10
自引率
3.20%
发文量
287
审稿时长
5.3 months
期刊介绍: The focus of CPC is on contemporary computational methods and techniques and their implementation, the effectiveness of which will normally be evidenced by the author(s) within the context of a substantive problem in physics. Within this setting CPC publishes two types of paper. Computer Programs in Physics (CPiP) These papers describe significant computer programs to be archived in the CPC Program Library which is held in the Mendeley Data repository. The submitted software must be covered by an approved open source licence. Papers and associated computer programs that address a problem of contemporary interest in physics that cannot be solved by current software are particularly encouraged. Computational Physics Papers (CP) These are research papers in, but are not limited to, the following themes across computational physics and related disciplines. mathematical and numerical methods and algorithms; computational models including those associated with the design, control and analysis of experiments; and algebraic computation. Each will normally include software implementation and performance details. The software implementation should, ideally, be available via GitHub, Zenodo or an institutional repository.In addition, research papers on the impact of advanced computer architecture and special purpose computers on computing in the physical sciences and software topics related to, and of importance in, the physical sciences may be considered.
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