Dynamical bottomonium-suppression in a realistic AA background

Gossiaux Pol Bernard; Katz Roland

arXiv:1611.06499·hep-ph·November 22, 2016·1 cites

Dynamical bottomonium-suppression in a realistic AA background

Gossiaux Pol Bernard, Katz Roland

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Open Access

TL;DR

This paper improves a dynamical quantum approach to study how bottomonium states are suppressed in heavy-ion collisions, incorporating feed-down effects and providing updated suppression measurements across collision centralities.

Contribution

It introduces refinements to the Schroedinger-Langevin scheme to include feed-downs and offers new predictions for bottomonium suppression in realistic AA collision backgrounds.

Findings

01

Updated R_AA results as a function of centrality

02

Inclusion of feed-down effects in suppression modeling

03

Refined dynamical scheme for quarkonium suppression

Abstract

We refine our dynamical Schroedinger-Langevin scheme designed for dealing with the suppression of quarkonium states in URHIC in order to allow for feed-downs from higher states and present updated results for the $R_{AA}$ as a function of the centrality.

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Taxonomy

TopicsQuantum Chromodynamics and Particle Interactions · Particle physics theoretical and experimental studies · High-Energy Particle Collisions Research