Jet-induced modifications of the characteristic of the bulk nuclear   matter

P. Marcinkowski; M. S{\l}odkowski; D. Kiko{\l}a; J. Sikorski; J.; Porter-Sobieraj; P. Gawryszewski; B. Zygmunt

arXiv:1511.02137·nucl-th·February 17, 2016

Jet-induced modifications of the characteristic of the bulk nuclear matter

P. Marcinkowski, M. S{\l}odkowski, D. Kiko{\l}a, J. Sikorski, J., Porter-Sobieraj, P. Gawryszewski, B. Zygmunt

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TL;DR

This paper investigates how jets influence the properties of bulk nuclear matter using advanced relativistic hydrodynamic simulations on GPUs, revealing modifications in hydrodynamic fields and their implications.

Contribution

It introduces a GPU-accelerated (3+1)D relativistic hydrodynamic simulation framework to study jet-induced modifications in nuclear matter.

Findings

01

Jets alter hydrodynamic field distributions

02

High-resolution Cartesian grid captures detailed modifications

03

Implications for understanding jet-medium interactions

Abstract

We present our studies on jet-induced modifications of the characteristic of the bulk nuclear matter. To describe such a matter, we use efficient relativistic hydrodynamic simulations in (3+1) dimensions employing the Graphics Processing Unit (GPU) in the parallel programming framework. We use Cartesian coordinates in the calculations to ensure a high spatial resolution that is constant throughout the evolution of the system. We show our results on how jets modify the hydrodynamics fields and discuss the implications.

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