Collective Flow and Energy Loss with parton transport

I. Bouras; A. El; O. Fochler; F. Reining; J. Uphoff; C. Wesp; Z. Xu; and C.Greiner

arXiv:1011.5073·hep-ph·March 2, 2022·2 cites

Collective Flow and Energy Loss with parton transport

I. Bouras, A. El, O. Fochler, F. Reining, J. Uphoff, C. Wesp, Z. Xu, and C.Greiner

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TL;DR

This paper uses a pQCD-based 3+1D parton transport model to study jet quenching, heavy quark production, and conical flow structures in high-energy nuclear collisions, providing insights into energy loss mechanisms.

Contribution

It introduces a comprehensive transport model that incorporates bremsstrahlung processes to analyze jet quenching and flow phenomena in heavy-ion collisions.

Findings

01

Reproduces jet quenching observed at RHIC.

02

Identifies conical flow structures induced by gluonic jets.

03

Highlights the role of dissipation in flow development.

Abstract

Quenching of gluonic jets and heavy quark production in Au+Au collisions at RHIC can be understood within the pQCD based 3+1 dimensional parton transport model BAMPS including pQCD bremsstrahlung $2 \leftrightarrow 3$ processes. Furthermore, the development of conical structures induced by gluonic jets is investigated in a static box for the regimes of small and large dissipation.

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Taxonomy

TopicsHigh-Energy Particle Collisions Research · Particle physics theoretical and experimental studies · Quantum Chromodynamics and Particle Interactions