Multiparticle correlations and collectivity in small systems from the initial state
Abstract
We report on recent progress in understanding multiparticle correlations in small systems from the initial state. First, we consider a proof-of-principle parton model, which we use to demonstrate that many of the multiparticle correlations observed in light-heavy ion collisions, often ascribed to hydrodynamic collectivity, can be qualitatively reproduced in an initial state model. Then, we study the two-particle harmonics and for p/d/He+Au collisions at RHIC using the dilute-dense Color Glass Condensate Effective Field Theory framework. We show that this provides a viable alternative explanation to hydrodynamics, and elaborate on how such modeling can be improved.
Cite
@article{arxiv.1807.06032,
title = {Multiparticle correlations and collectivity in small systems from the initial state},
author = {Kevin Dusling and Mark Mace and Vladimir V. Skokov and Prithwish Tribedy and Raju Venugopalan},
journal= {arXiv preprint arXiv:1807.06032},
year = {2019}
}
Comments
4 pages, 2 figures. Proceedings for Quark Matter 2018 based on talk by M. Mace. v2: Minor edits, identical to published version