Bayesian calibration of viscous anisotropic hydrodynamic (VAH) simulations of heavy-ion collisions

¹ Physics Department, The Ohio State University, Columbus, OH 43210-1117, USA
² Department of Physics, University of Washington, Seattle WA 98195-1560, USA

^* e-mail: heinz.9@osu.edu
^** e-mail: liyanagedananjaya@gmail.com
^*** e-mail: cgantenb@uw.edu

Published online: 26 June 2024

Abstract

A Bayesian calibration, using experimental data from 2.76 A TeV Pb-Pb collisions at the LHC, of a novel hybrid model is presented in which the usual pre-hydrodynamic and viscous relativistic fluid dynamic (vRFD) stages are replaced by a viscous anisotropic hydrodynamic (VAH) core that smoothly interpolates between the initial expansion-dominated, approximately boost-invariant longitudinally free-streaming and the subsequent collision-dominated (3+1)- dimensional standard vRFD stages. This model yields meaningful constraints for the temperature-dependent specific shear and bulk viscosities, (η=s)(T) and (ζ=s)(T), for temperatures up to about 700MeV (i.e. over twice the range that could be explored with earlier models). With its best-fit model parameters the calibrated VAH model makes highly successful predictions for additional p_T-dependent observables for which high-quality experimental data are available that were not used for the model calibration.