等边碰撞中重离子初始条件的能量依赖性

IF 5.4 3区材料科学 Q2 CHEMISTRY, PHYSICAL

ACS Applied Energy Materials Pub Date : 2024-09-20 DOI:10.1016/j.physletb.2024.139034

Somadutta Bhatta , Chunjian Zhang , Jiangyong Jia

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引用次数: 0

摘要

质量数相同但结构参数不同的等位原子核对撞为探测重离子对撞的初始条件提供了一种新方法。在两种能量 sNN=0.2 TeV 和 5.02 TeV 下，96Ru+96Ru 和 96Zr+96Zr 对撞中，96Ru 核和 96Zr 核的变形和径向剖面明显不同，利用对这两种对撞的输运模型模拟，我们确定了对终态谐波流 vn 有独立贡献的偏心源。这些偏心源产生谐波流的效率各不相同，这也解释了 vn 的等压比与能量的适度相关性。此外，还发现 vn 的一个重要组成部分与偏心率无关，而是在系统演化过程中动态产生的。在大型强子对撞机能量下对这些比率进行实验测量，并与 RHIC 能量进行比较，可以深入了解初始条件的碰撞能量依赖性。

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Energy dependence of heavy-ion initial condition in isobar collisions

Collisions of isobar nuclei, those with the same mass number but different structure parameters, provide a new way to probe the initial condition of the heavy ion collisions. Using transport model simulation of ⁹⁶Ru+⁹⁶Ru and ⁹⁶Zr+⁹⁶Zr collisions at two energies

\sqrt{s_{NN}} = 0.2

TeV and 5.02 TeV, where ⁹⁶Ru and ⁹⁶Zr nuclei have significantly different deformations and radial profiles, we identify sources of eccentricities contributing independently to the final state harmonic flow

v_{n}

. The efficacy for flow generation differs among these sources, and explains the modest energy dependence of the isobar ratios of

v_{n}

. Additionally, a significant component of

v_{n}

is found to be uncorrelated with the eccentricity, but is instead generated dynamically during system evoluation. Experimental measurement of these ratios at the LHC energy and comparison with RHIC energy can provide insight into the collision-energy dependence of the initial condition.

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来源期刊

ACS Applied Energy Materials Materials Science-Materials Chemistry

CiteScore

10.30

自引率

6.20%

发文量

1368

期刊介绍： ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.