Probing hadronic interaction models with the hybrid data of the Pierre Auger Observatory

SciPost Physics Proceedings Pub Date : 2023-09-29 DOI:10.21468/scipostphysproc.13.026

Jakub Vícha

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引用次数: 2

Abstract

Presently large systematic uncertainties remain in the description of hadronic interactions at ultra-high energies and a fully consistent description of air-shower experimental data is yet to be reached. The amount of data collected by the Pierre Auger Observatory using simultaneously the fluorescence and surface detectors in the energy range 10 ^{18.5} 18.5 -10 ^{19.0} 19.0 eV has provided opportunity to perform a multi-parameter test of model predictions. We apply a global method to simultaneously fit the mass composition of cosmic rays and adjustments to the simulated depth of shower maximum, and hadronic signal at ground level. The best description of the hybrid data is obtained for a deeper scale of simulated depth of shower maximum than predicted by hadronic interaction models tuned to the LHC data. Consequently, the deficit of the simulated hadronic signal at ground level, dominated by muons, is alleviated with respect to the unmodified hadronic interaction models. Because of the size of the adjustments to simulated depth of shower maximum and hadronic signal and the large number of events in the sample, the statistical significance of these assumed adjustments is large, greater than 5 \sigma_{stat} σstat , even for the combination of the systematic experimental shifts within 1 \sigma_{sys} σsys that are the most favorable for the models.

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用皮埃尔·奥格天文台的混合数据探测强子相互作用模型

目前，在超高能强子相互作用的描述中仍然存在较大的系统不确定性，对风淋实验数据的完全一致的描述尚未达到。皮埃尔·奥格天文台同时使用荧光和表面探测器在10 ^{18.5}18.5 -10 ^{19.0}19.0 eV能量范围内收集的数据量为模型预测的多参数检验提供了机会。我们采用一种全局方法，同时拟合宇宙射线的质量组成和对模拟最大流星雨深度的调整，以及地面强子信号。混合数据的最佳描述是在较深的尺度上模拟最大流星雨的深度，而不是通过调整到LHC数据的强子相互作用模型来预测。因此，相对于未修正的强子相互作用模型，模拟强子信号在地面以μ子为主的缺陷得到了缓解。由于模拟最大阵雨深度和强子信号的调整量较大，且样本中事件较多，因此这些假设调整量的统计显著性较大，即使系统实验偏移量在1 \sigma_{sys} σsys内的组合也大于5 \sigma_{sys} σsys，这对模型最有利。

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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SciPost Physics Proceedings

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