Open heavy-flavour measurements with ALICE at the LHC

F. Colamaria
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Abstract

Heavy quarks are produced in the early stages of ultra-relativistic heavy-ion collisions, and their number is preserved throughout the subsequent evolution of the system. Therefore, they constitute ideal probes for characterising the Quark--Gluon Plasma (QGP) medium and for the study of its transport properties. In particular, heavy quarks interact with the partonic constituents of the plasma, losing energy, and are expected to be sensitive to the medium collective motion induced by its hydrodynamical evolution. In pp collisions, the measurement of heavy-flavour hadron production provides a reference for heavy-ion studies, and allows also testing perturbative QCD calculations in a wide range of collision energies. Similar studies in p--Pb collisions help in disentangling cold nuclear matter effects from modifications induced by the presence of a QGP medium, and are also useful to investigate the possible existence of collective phenomena also in this system. The ALICE detector provides excellent performances in terms of particle identification and vertexing capabilities. Hence, it is fully suited for the reconstruction of charmed mesons and baryons and of electrons from heavy-flavour hadron decays at central rapidity. Furthermore, the ALICE muon spectrometer allows reconstructing heavy-flavour decay muons at forward rapidity. A review of the main ALICE results on open heavy flavour production in pp, p--Pb and Pb--Pb collisions is presented. Recent, more differential measurements are also shown, including azimuthal correlations of heavy-flavour particles with charged hadrons in p--Pb collisions, and D-meson tagged-jet production in p--Pb and Pb--Pb collisions.
用ALICE在大型强子对撞机进行重味测量
重夸克是在超相对论重离子碰撞的早期阶段产生的,它们的数量在随后的系统演化中一直保持不变。因此,它们构成了表征夸克-胶子等离子体(QGP)介质和研究其输运性质的理想探针。特别是,重夸克与等离子体的部分子成分相互作用,损失能量,并且预计对其流体动力学演化引起的介质集体运动敏感。在pp碰撞中,重味强子产生的测量为重离子研究提供了参考,也允许在大范围的碰撞能量下测试微扰QCD计算。在p—Pb碰撞中的类似研究有助于从QGP介质的存在引起的修饰中解纠缠冷核物质效应,并且也有助于研究该系统中可能存在的集体现象。ALICE探测器在粒子识别和顶点化能力方面提供了出色的性能。因此,它完全适合重建粲介子和重子,以及重味强子以中心速度衰变产生的电子。此外,ALICE μ子谱仪允许重建重味衰变μ子向前快速。本文综述了在pp、p—Pb和Pb—Pb碰撞中产生开放式重味的主要ALICE结果。最近,还显示了更多的差分测量,包括p—Pb碰撞中重味粒子与带电强子的方位相关性,以及p—Pb和Pb—Pb碰撞中d介子标记射流的产生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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