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Boost-Invariant (2+1)-dimensional Anisotropic Hydrodynamics

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arxiv 1204.1473 v2 pith:QVUNV2EU submitted 2012-04-06 nucl-th hep-phnucl-ex

Boost-Invariant (2+1)-dimensional Anisotropic Hydrodynamics

classification nucl-th hep-phnucl-ex
keywords equationsanisotropicconditionsinitialahydroapplicationdifferentialdimensional
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present results of the application of the anisotropic hydrodynamics (aHydro) framework to (2+1)-dimensional boost invariant systems. The necessary aHydro dynamical equations are derived by taking moments of the Boltzmann equation using a momentum-space anisotropic one-particle distribution function. We present a derivation of the necessary equations and then proceed to numerical solutions of the resulting partial differential equations using both realistic smooth Glauber initial conditions and fluctuating Monte-Carlo Glauber initial conditions. For this purpose we have developed two numerical implementations: one which is based on straightforward integration of the resulting partial differential equations supplemented by a two-dimensional weighted Lax-Friedrichs smoothing in the case of fluctuating initial conditions; and another that is based on the application of the Kurganov-Tadmor central scheme. For our final results we compute the collective flow of the matter via the lab-frame energy-momentum tensor eccentricity as a function of the assumed shear viscosity to entropy ratio, proper time, and impact parameter.

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  1. Extended applicability domain of viscous anisotropic hydrodynamics in (2+1)-D Bjorken flow with transverse expansion

    nucl-th 2025-09 unverdicted novelty 5.0

    VAH simulations in (2+1)D Bjorken flow with transverse expansion show an extended applicability domain over standard viscous hydrodynamics when compared to relaxation-time approximation kinetic theory.