在 $\sqrt{s} = 13$ TeV 的 pp 对撞中,来自二重子相关性的乘数依赖性射流修正

ALICE Collaboration
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引用次数: 0

摘要

在$\sqrt{s}=13$ TeV的pp对撞中,通过双粒子角相关性研究了带电粒子之间的短程相关性。相关函数是作为相对方位角$\Delta\varphi$和伪振型间隔$\Delta\eta$的函数来测量的,适用于伪振型间隔$|\eta| < 0.9$和横向动量范围$1 < p_{rm T} 内的一对原初带电粒子。< 8$ GeV/$c$。近侧($|\Delta\varphi|<1.3$)峰宽是从一个拟合了全假截距($|\Delta\eta|<1.8$)相关性的广义高斯中提取出来的,而与每次触发相关的近侧产率则是针对短程相关性($|\Delta\eta|<1.3$)提取出来的。两者都是通过两种不同的事件活动估计器得到的带电粒子倍率函数来评估的。近侧峰的宽度随着倍率的增加而减小,蒙特卡洛事件发生器PYTHIA 8、AMPT和EPOS定性地再现了这一趋势。然而,这些模型低估了低横向动量区($p_{\rm T} < 3$GeV/$c$)的宽度。每次触发相关的近侧产率随着倍率的增加而增加。尽管所考虑的事件发生器也定性地捕捉到了这一趋势,但在所考虑的运动学范围内,模型大多高估了产率。测量短程相关峰的形状和产率有助于我们理解射流分裂和事件活动之间的相互作用,量化pp对撞中近边峰作为横动量和倍率选择函数的缩小趋势,以及寻找小对撞系统中的终态射流修正。\
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multiplicity-dependent jet modification from di-hadron correlations in pp collisions at $\sqrt{s} = 13$ TeV
Short-range correlations between charged particles are studied via two-particle angular correlations in pp collisions at $\sqrt{s}=13$ TeV. The correlation functions are measured as a function of the relative azimuthal angle $\Delta\varphi$ and the pseudorapidity separation $\Delta\eta$ for pairs of primary charged particles within the pseudorapidity interval $|\eta| < 0.9$ and the transverse-momentum range $1 < p_{\rm T} < 8$ GeV/$c$. Near-side ($|\Delta\varphi|<1.3$) peak widths are extracted from a generalised Gaussian fitted over the correlations in full pseudorapidity separation ($|\Delta\eta|<1.8$), while the per-trigger associated near-side yields are extracted for the short-range correlations ($|\Delta\eta|<1.3$). Both are evaluated as a function of charged-particle multiplicity obtained by two different event activity estimators. The width of the near-side peak decreases with increasing multiplicity, and this trend is reproduced qualitatively by the Monte Carlo event generators PYTHIA 8, AMPT, and EPOS. However, the models overestimate the width in the low transverse-momentum region ($p_{\rm T} < 3$ GeV/$c$). The per-trigger associated near-side yield increases with increasing multiplicity. Although this trend is also captured qualitatively by the considered event generators, the yield is mostly overestimated by the models in the considered kinematic range. The measurement of the shape and yield of the short-range correlation peak can help us understand the interplay between jet fragmentation and event activity, quantify the narrowing trend of the near-side peak as a function of transverse momentum and multiplicity selections in pp collisions, and search for final-state jet modification in small collision systems. \
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