在RHIC束流能量扫描中用正向探测器确定中心性

S. Kagamaster, R. Reed, M. Lisa
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引用次数: 4

摘要

最近,Chatterjee等人利用一个强子输运模型来估计各种实验量选择碰撞能量与相对论重离子对撞机(RHIC)束流能量扫描(BES)程序相关的相对论重离子碰撞碰撞参数的分辨率。在前进速度下,基于粒子多重度的测量结果明显差于基于中速度多重度的测量结果。使用相同的模型,我们表明,稍微复杂一点的测量方法大大提高了基于前向快速粒子的分辨率;即使通过对STAR实验的最新升级探测器的真实模拟过滤该模型,这种改进仍然存在。这些结果强调了优化基于向前快速检测到的粒子的中心性测量的重要性,特别是对于在QCD相图中寻找临界点的实验研究。这样的测量通常集中在中速的质子多重性波动上,因此选择基于中速多重性的事件增加了非平凡自相关的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Centrality determination with a forward detector in the RHIC Beam Energy Scan
Recently, Chatterjee et al used a hadronic transport model to estimate the resolution with which various experimental quantities select the impact parameter of relativistic heavy ion collisions at collision energies relevant to the Beam Energy Scan (BES) program at the Relativistic Heavy Ion Collider (RHIC). Measures based on particle multiplicity at forward rapidity were found to be significantly worse than those based on midrapidity multiplicity. Using the same model, we show that a slightly more sophisticated measure greatly improves the resolution based on forward rapidity particles; this improvement persists even when the model is filtered through a realistic simulation of a recent upgrade detector to the STAR experiment. These results highlight the importance of optimizing centrality measures based on particles detected at forward rapidity, especially for experimental studies that search for a critical point in the QCD phase diagram. Such measurements usually focus on proton multiplicity fluctuations at midrapidity, hence selecting events based on multiplicity at midrapidity raises the possibility of nontrivial autocorrelations.
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