Nuclear Suppression of Jets and R_AA at the LHC

G.Y. Qin; J. Ruppert; S. Turbide; C. Gale; S. Jeon

arXiv:0705.4468·hep-ph·June 13, 2007

Nuclear Suppression of Jets and R_AA at the LHC

G.Y. Qin, J. Ruppert, S. Turbide, C. Gale, S. Jeon

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TL;DR

This paper predicts the nuclear modification factor R_AA for charged hadrons at the LHC using jet energy loss models and hydrodynamics, providing insights into quark-gluon plasma effects.

Contribution

It applies the Arnold, Moore, and Yaffe formalism combined with hydrodynamics to predict R_AA, advancing understanding of jet quenching at the LHC.

Findings

01

Predicted R_AA values for charged hadrons at LHC energies.

02

Demonstrated the impact of gluon bremsstrahlung on jet suppression.

03

Provided a framework for comparing theoretical predictions with experimental data.

Abstract

The nuclear modification factor R_AA for charged hadron production at the LHC is predicted from jet energy loss induced by gluon bremsstrahlung. The Arnold, Moore, and Yaffe formalism is used, together with an ideal hydrodynamical model.

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Taxonomy

TopicsHigh-Energy Particle Collisions Research · Particle physics theoretical and experimental studies · Nuclear reactor physics and engineering