p+p, p+Pb和Pb+Pb碰撞中的Hanbury-Brown-Twiss干涉测量和集体性

arXiv: Nuclear Theory Pub Date : 2020-08-04 DOI:10.1103/PHYSREVC.102.054908

C. Plumberg

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引用次数: 3

摘要

Hanbury Brown- Twiss干涉测量法(HBT)为冻结状态下超相对论性核碰撞的时空结构和动量-空间演化提供了至关重要的见解。特别是，HBT半径对横向对动量K_T和系统电荷多重度dN_{\ mathm {ch}}/d\eta$的依赖关系可能反映了驱动小系统集体行为的机制。本文认为，如果小系统在高复数下进行流体动力学演化，则可以很自然地理解HBT半径复数依赖性中的某些特征。因此，这项研究为流体动力学中HBT的多重依赖性建立了一个基线，这可能证明对区分核碰撞中相互竞争的集体模型是有用的。

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Hanbury-Brown–Twiss interferometry and collectivity in p+p, p+Pb, and Pb+Pb collisions

Hanbury Brown--Twiss interferometry (HBT) provides crucial insights into both the space-time structure and the momentum-space evolution of ultrarelativistic nuclear collisions at freeze-out. In particular, the dependence of the HBT radii on the transverse pair momentum $K_T$ and the system charged multiplicity $dN_{\mathrm{ch}}/d\eta$ may reflect the mechanisms driving collective behavior in small systems. This paper argues that certain features observed in the multiplicity dependence of the HBT radii can be naturally understood if small systems evolve hydrodynamically at high-multiplicity. This study thus establishes a baseline for the multiplicity dependence of HBT in hydrodynamics which may prove useful in discriminating between competing models of collectivity in nuclear collisions.

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arXiv: Nuclear Theory

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