重离子碰撞的初始条件与QCD动力学理论

Proceedings of 12th International Workshop on High-pT Physics in the RHIC/LHC Era — PoS(High-pT2017) Pub Date : 2019-06-20 DOI:10.22323/1.320.0001

A. Kurkela, A. Mazeliauskas, J. Paquet, S. Schlichting, D. Teaney

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引用次数: 1

摘要

我们采用了一级QCD动力学理论来描述重离子碰撞的初始阶段和随后的流体动力学演化之间的一致匹配。我们利用非平衡纵向扩展背景周围的线性化动力学响应函数，将初始能量和动量扰动映射到流体动力初始化时间τ hydro的能量动量张量。我们检查，强子观测然后变得相当不敏感的交叉时间之间的动力学理论和粘性流体力学。以动力学松弛时间为单位的动力学响应的普遍标度允许逐个事件地直接应用动力学预平衡。

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Initial conditions for heavy ion collisions with QCD kinetic theory

We employ the leading order QCD kinetic theory to describe a consistent matching between the initial stage of a heavy ion collision and the subsequent hydrodynamic evolution. We use the linearized kinetic response functions around the non-equilibirum longitudinally expanding background to map initial energy and momentum perturbations to the energy momentum tensor at hydrodynamic initialization time τ hydro . We check that hadronic observables then become rather insensitive to the cross-over time between kinetic theory and viscous hydrodynamics. The universal scaling of kinetic response in units of kinetic relaxation time allows for a straightforward application of kinetic pre-equilibration event-by-event.

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Proceedings of 12th International Workshop on High-pT Physics in the RHIC/LHC Era — PoS(High-pT2017)

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