Accuracy versus precision in boosted top tagging with the ATLAS detector

arXiv - PHYS - High Energy Physics - Experiment Pub Date : 2024-07-29 DOI:arxiv-2407.20127

ATLAS Collaboration

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Abstract

The identification of top quark decays where the top quark has a large momentum transverse to the beam axis, known as $top$ $tagging$, is a crucial component in many measurements of Standard Model processes and searches for beyond the Standard Model physics at the Large Hadron Collider. Machine learning techniques have improved the performance of top tagging algorithms, but the size of the systematic uncertainties for all proposed algorithms has not been systematically studied. This paper presents the performance of several machine learning based top tagging algorithms on a dataset constructed from simulated proton-proton collision events measured with the ATLAS detector at $\sqrt{s} = 13$ TeV. The systematic uncertainties associated with these algorithms are estimated through an approximate procedure that is not meant to be used in a physics analysis, but is appropriate for the level of precision required for this study. The most performant algorithms are found to have the largest uncertainties, motivating the development of methods to reduce these uncertainties without compromising performance. To enable such efforts in the wider scientific community, the datasets used in this paper are made publicly available.

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使用 ATLAS 探测器进行增强顶部标记的准确性与精确性对比

在大型强子对撞机上，识别顶夸克具有横向于束流轴的大动量的顶夸克衰变（称为 "顶标记"），是许多标准模型过程测量和标准模型物理之外搜索的关键组成部分。机器学习技术提高了顶部标记算法的性能，但对所有建议算法的系统不确定性大小还没有进行系统研究。本文介绍了几种基于机器学习的顶端标记算法在模拟质子-质子碰撞事件数据集上的性能，该数据集是用ATLAS探测器在$\sqrt{s} = 13$ TeV测量的。与这些算法相关的系统不确定性是通过一个近似程序估算出来的，该程序并不打算用于物理分析，但适合本研究要求的精度水平。我们发现，性能最好的算法具有最大的不确定性，这促使我们开发各种方法，在不影响性能的前提下减少这些不确定性。为了让更多的科学界人士能够做出这样的努力，本文中使用的数据集将公开发布。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - High Energy Physics - Experiment

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