An Effective Theory of Quarkonia in QCD Matter

TL;DR

This paper introduces a new effective theory extending NRQCD to include off-shell gluon interactions, providing a universal microscopic framework for understanding quarkonium behavior across different nuclear matter phases in heavy ion collisions.

Contribution

It generalizes NRQCD to incorporate off-shell gluon interactions, enabling a consistent description of quarkonium in various nuclear environments.

Findings

Derived leading and sub-leading interaction terms in the Lagrangian.

Connected the leading interaction result to existing phenomenology.

Provided a universal microscopic description applicable to multiple phases.

Abstract

The problem of quarkonium production in heavy ion collisions presents a set of unique theoretical challenges -- from the relevant production mechanism of $J/\psi$ and $\Upsilon$ to the relative significance of distinct cold and hot nuclear matter effects in the observed attenuation of quarkonia. Inthese proceedings we summarize recent work on the generalization of non-relativistic Quantum Chromodynamics (NRQCD) to include off-shell gluon (Glauber/Coulomb) interactions in strongly interacting matter. This new effective theory provides for the first time a universal microscopic description of the in-medium interaction of heavy quarkonia, consistently applicable to a range of phases such as cold nuclear matter, dense hadron gas, and quark-gluon plasma. It is an important step forward in understanding the common trends in proton-nucleus and nucleus-nucleus data on quarkonium suppression. We derive explicitly the leading and sub-leading interaction terms in the Lagrangian and show the connection of the leading result to existing phenomenology.