用能量相关器最小化重离子碰撞中包容性射流的选择偏差

arXiv - PHYS - Nuclear Theory Pub Date : 2024-09-11 DOI:arxiv-2409.07514

Carlota Andres, Jack Holguin, Raghav Kunnawalkam Elayavalli, Jussi Viinikainen

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摘要

然而，由于能量损失产生的选择偏差，解释这种增强是复杂的，这也扭曲了强子化区域的能量相关器重离子与p的比率，阻碍了我们对有色介质中粒子/强子动力学的理解。在这封信中，我们介绍了一种新的能量相关器观测值比率，它消除了两点能量相关器谱（E2C）中选择偏差的主导效应。Pythia 和 Herwigs 的模拟表明，E2C 中选择偏差的影响降低了一个数量级，而对任何其他介质修正的敏感性则得以保留。如附注所示，这个量可以直接从 CMS 提出的实验测量结果中获得。

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Minimizing Selection Bias in Inclusive Jets in Heavy-Ion Collisions with Energy Correlators

The first-ever measurement of energy correlators within inclusive jets produced in heavy-ion collisions, revealed by the CMS Collaboration, shows a clear enhancement at large angles relative to the proton-proton (p-p) baseline. However, interpreting this enhancement is complicated due to selection bias from energy loss, which also distorts the energy correlator heavy-ion to p-p ratio in the hadronization region, hindering our understanding of parton/hadron dynamics in a colored medium. In this Letter, we introduce a new ratio of energy correlator observables that removes the leading effects of selection bias from the two-point energy correlator spectrum (E2C). Pythia and Herwig simulations show that the impact of selection bias in the E2C is reduced by an order of magnitude, while sensitivity to any other medium modifications is retained. This quantity can be obtained directly from the experimental measurements presented by CMS, as illustrated in the accompanying note.

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arXiv - PHYS - Nuclear Theory

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