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Hydrodynamic theories for a system of weakly self-interacting classical ultrarelativistic scalar particles: Microscopic derivations and attractors

Gabriel S. Rocha, Caio V. P. de Brito, Gabriel S. Denicol

2023Physical review. D/Physical review. D.25 citationsDOI

Abstract

We derive and investigate several hydrodynamic formalisms that emerge from a system of classical, ultrarelativistic scalar particles self-interacting via a quartic potential. The specific form of the total cross-section enables the analytical computation of all transport coefficients that appear in Navier-Stokes (NS), Bemfica-Disconzi-Noronha-Kovtun (BDNK), and second-order transient hydrodynamic theories. We solve all these formalisms in a Bjorken flow scenario and show that NS and BDNK theories display unphysical features when gradients become sufficiently large. This implies that these hydrodynamic approaches may not be suitable to describe the early stages of heavy ion collisions.

Topics & Concepts

Rotation formalisms in three dimensionsPhysicsQuartic functionScalar (mathematics)AttractorComputationClassical mechanicsStatistical physicsFlow (mathematics)Theoretical physicsMechanicsMathematical analysisMathematicsPure mathematicsAlgorithmGeometryHigh-Energy Particle Collisions ResearchCosmology and Gravitation TheoriesGas Dynamics and Kinetic Theory
Hydrodynamic theories for a system of weakly self-interacting classical ultrarelativistic scalar particles: Microscopic derivations and attractors | Litcius