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Hydrodynamization in systems with detailed transverse profiles

Aleksi Kurkela, Seyed Farid Taghavi, Urs Achim Wiedemann, Bin Wu

2020Physics Letters B34 citationsDOIOpen Access PDF

Abstract

The observation of fluid-like behavior in nucleus-nucleus (AA), proton-nucleus (pA) and high-multiplicity proton-proton (pp) collisions motivates systematic studies of how different measurements approach their fluid-dynamic limit. We have developed numerical methods to solve the ultra-relativistic Boltzmann equation for systems of arbitrary size and transverse geometry. Here, we apply these techniques for the first time to the study of azimuthal flow coefficients vn including non-linear mode-mode coupling and to an initial condition with realistic event-by-event fluctuations. We show how both linear and non-linear response coefficients extracted from vn develop as a function of opacity from free streaming to perfect fluidity. We note in particular that away from the fluid-dynamic limit, the signal strength of linear and non-linear response coefficients does not reduce uniformly, but that their hierarchy and relative size shows characteristic differences.

Topics & Concepts

Transverse planePhysicsMultiplicity (mathematics)Limit (mathematics)MechanicsAzimuthStatistical physicsEvent (particle physics)Mathematical analysisComputational physicsClassical mechanicsMathematicsQuantum mechanicsOpticsEngineeringStructural engineeringHigh-Energy Particle Collisions ResearchQuantum, superfluid, helium dynamicsIonosphere and magnetosphere dynamics
Hydrodynamization in systems with detailed transverse profiles | Litcius