Collective flow in small systems

Piotr Bozek; Wojciech Broniowski

arXiv:1407.6478·nucl-th·June 22, 2015

Collective flow in small systems

Piotr Bozek, Wojciech Broniowski

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TL;DR

This paper discusses how collective flow phenomena in small collision systems like proton-nucleus can be explained by hydrodynamic models, comparing predictions with experimental data.

Contribution

It provides hydrodynamic model predictions for asymmetric transverse flow in small systems and compares them to experimental results.

Findings

01

Hydrodynamic models can describe collective flow in small systems.

02

Predictions align with experimental data for asymmetric transverse flow.

03

Supports the applicability of hydrodynamics in small collision systems.

Abstract

The large density of matter in the interaction region of the proton-nucleus or deuteron-nucleus collisions enables the collective expansion of the fireball. Predictions of the hydrodynamic model for the asymmetric transverse flow are presented and compared to experimental data.

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