Correlated gluonic hot spots meet symmetric cumulants data at LHC energies

López Albacete, Javier; Niemi, Harri; Petersen, Hannah; Soto-Ontoso, Alba

doi:10.1016/j.nuclphysa.2018.08.013

1-s2.0-S037594741830157X-main.pdf (179.6Kb)

Identificadores

URI: http://hdl.handle.net/10481/58773

DOI: 10.1016/j.nuclphysa.2018.08.013

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Editorial

Elsevier BV

Materia

Initial state

Small systems

Hot spots

Correlations

Elliptic flow

Date

2018

Referencia bibliográfica

Albacete, J. L., Niemi, H., Petersen, H., & Soto-Ontoso, A. (2019). Correlated gluonic hot spots meet symmetric cumulants data at LHC energies. Nuclear Physics A, 982, 463-466.

Sponsorship

This work was partially supported by a Helmholtz Young Investigator Group VH-NG-822 from the Helmholtz Association and GSI, a FP7-PEOPLE-2013-CIG Grant of the European Commission, reference QCDense/ 631558, by Ramón y Cajal and MINECO projects reference RYC-2011-09010 and FPA2013- 47836 and by the DFG through the grant CRC-TR 211. HN is supported by the Academy of Finland, project 297058.

Abstract

We present a systematic study on the influence of spatial correlations between the proton constituents, in our case gluonic hot spots, their size and their number on the symmetric cumulant SC(2, 3), at the eccentricity level, within a Monte Carlo Glauber framework [1]. When modeling the proton as composed by 3 gluonic hot spots, the most common assumption in the literature, we find that the inclusion of spatial correlations is indispensable to reproduce the negative sign of SC(2, 3) in the highest centrality bins as dictated by data. Further, the subtle interplay between the different scales of the problem is discussed. To conclude, the possibility of feeding a 2+1D viscous hydrodynamic simulation with our entropy profiles is exposed.

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