Centrality Dependence of Strangeness Enhancement in Ultrarelativistic Heavy Ion Collisions - a Core-Corona Effect

TL;DR

This paper explains the system size and centrality dependence of strangeness enhancement in heavy ion collisions through a core-corona model, emphasizing the role of geometrical effects and Glauber geometry in collision dynamics.

Contribution

It introduces a core-corona effect model to explain how system size influences strangeness production, highlighting the importance of geometrical considerations in collision analysis.

Findings

System size dependence explained by core-corona contributions.

CuCu and AuAu results are similar due to small core-corona multiplicity differences.

Supports Glauber geometry validity in peripheral collisions.

Abstract

In ultrarelativistic heavy ion collisions, the multiplicity of multi-strange baryons per participating nucleon increases with centrality in a different fashion for different systems and energies. At RHIC, for copper+copper (CuCu) collisions the increase is much steeper than for gold-gold (AuAu) collisions. We show that this system size dependence is due to a core-corona effect: the relative importance of the corona as compared to the core (thermalized matter) contribution varies and the contribution of a corona nucleon to the multiplicity differs from that of a core nucleon. $\phi$ mesons follow in principle the same trend, but the difference between core and corona multiplicity is relatively small, and therefore the CuCu and AuAu results are quite similar. This simple geometrical explanation makes also a strong case in favor of the validity of Glauber geometry in the peripheral regions of ultrarelativistic heavy ion collisions, which is crucial for understanding the early evolution of the system.