Colour coherence in small collision systems
Abstract
The observation of collectivity in collisions of small systems has constituted a challenge for the heavy-ion community for over a decade now. The absence of jet quenching in those systems presents an apparent contradiction to the presence of an azimuthal anisotropy of high-p particles. In the present work, we investigate the role of colour coherence in this puzzle. For that, we use the Jewel Monte Carlo model in its latest version, which includes effects of colour coherence in the jet-medium interactions. We then compare the two scenarios, with and without colour coherence, and quantify the effect on hadron and jet RAA as well as on high-p v2. The results indicate that, although coherence effects do account for an increase in RAA, they do not affect v2 to the same extent. Using hydrodynamic profiles generated with Trajectum we compare O+O and Pb+Pb collisions at the same charged particle multiplicity and find that the nuclear modification factors are the same in both systems despite their different shapes.
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