Sensitivity of jet quenching to the initial state in heavy-ion collisions

Souvik Priyam Adhya, Konrad Tywoniuk
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Abstract

In heavy-ion collisions, nuclear matter is subjected to extreme conditions in a highly dynamical, rapidly evolving environment. This poses a tremendous challenge for calculating jet quenching observables. Current approaches rely on analytical results for static cases, introducing theoretical uncertainties and biases in our understanding of the pre-equilibrated medium. To address this issue, we employ resummation schemes to derive analytical rates for radiative energy loss in generic, evolving backgrounds. We investigate regimes where rare scattering and multiple scattering with the dynamical medium occurs, and extract relevant scales governing the in-medium emission rate of soft gluons. Our analysis indicates that strong jet quenching is only possible when the equilibration time of the medium is longer than its mean free path, highlighting the importance of medium modifications of jets in the earliest stages of heavy-ion collisions. We also demonstrate analytically that a medium evolution, which initially has a small coupling to jets, typically leads to a stronger jet azimuthal asymmetry at the same jet suppression factor.
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重离子碰撞中射流淬火对初始状态的敏感性
在重离子碰撞中,核物质在高度动态、快速演变的环境中受到极端条件的影响。这给计算射流淬火观测值带来了巨大挑战。目前的方法依赖于静态情况下的分析结果,在我们对预平衡介质的理解中引入了理论不确定性和偏见。为了解决这个问题,我们采用了重和方案来推导一般演化背景中辐射能量损失的分析率。我们的分析表明,只有当介质的校准时间长于其平均自由路径时,才有可能发生强射流淬灭,这突出了在重离子对撞的最初阶段介质对射流修正的重要性。我们还通过分析证明,最初与喷流耦合较小的介质演化通常会在相同的喷流抑制因子下导致更强的喷流方位角不对称。
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