Probing the nature of the QCD phase transition with higher-order net-proton number fluctuation and local parton density fluctuation measurements at RHIC-STAR

Dylan Nefffor the STAR Collaboration
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Abstract

The moments of proton and net-proton multiplicity distributions are observables expected to be sensitive to the QCD critical point and the nature of the QCD phase transition from QGP to hadron gas. Hyper-order cumulants are measured in wide centrality bins in STAR BES-I data and found to be qualitatively consistent with trends predicted by lattice QCD which finds a cross-over phase transition at low $\mu_\text{B}$. Data collected at $\sqrt{s_{NN}}=3$ GeV in BES-II exhibit trends opposite of those observed in higher energy collisions which may suggest the dominance of hadronic interactions at this energy. The variance of proton multiplicity distributions in azimuthal partitions is measured to search for signals of clustering indicative of a first-order phase transition. A strong dependence on the event multiplicity is observed. This dependence is independent of energy in AMPT while in STAR data a significant trend with energy is observed.
利用 RHIC-STAR 的高阶净质子数波动和局部 Parton 密度波动测量探究 QCD 相变的性质
质子和净质子多重性分布的矩是预计对 QCD 临界点和从 QGP 到强子气体的 QCD 相变性质敏感的观测值。在STAR BES-I数据的宽中心区测量了超阶累积量,发现其定性与格子QCD预测的趋势一致,格子QCD发现在低$\mu_\text{B}$时存在跨过相变。在BES-II中收集的$\sqrt{s_{NN}}=3GeV的数据显示出与在更高能量对撞中观测到的趋势相反的趋势,这可能表明强子相互作用在该能量占主导地位。测量了方位角分区中质子多重性分布的方差,以寻找表明一阶相变的聚类信号。结果表明,质子多倍性与事件多倍性有很强的相关性。在 AMPT 数据中,这种依赖性与能量无关,而在 STAR 数据中,则观察到与能量有关的显著趋势。
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