(3+1)-dimensional dissipative relativistic fluid dynamics at non-zero net baryon density

Published: 18 Dec 2019 | Version 1 | DOI: 10.17632/xwywvb2psm.1

Description of this data

Heavy-ion collisions at center-of-mass energies between 1 and 100 GeV/nucleon are essential to understand the phase diagram of QCD and search for its critical point. At these energies the net baryon density of the system can be high, and simulating its evolution becomes an indispensable part of theoretical modeling. We here present the (3+1)-dimensional diffusive relativistic hydrodynamic code BEShydro which solves the equations of motion of second-order Denicol–Niemi–Molnar–Rischke (DNMR) theory, including bulk and shear viscous currents and baryon diffusion currents. BEShydro features a modular structure that allows to easily turn on and off baryon evolution and different dissipative effects and thus to study their physical effects on the dynamical evolution individually. An extensive set of test protocols for the code, including several novel tests of the precision of baryon transport that can also be used to test other such codes, is documented here and supplied as a permanent part of the code package.

Experiment data files

This data is associated with the following publication:

(3+1)-dimensional dissipative relativistic fluid dynamics at non-zero net baryon density

Published in: Computer Physics Communications

Latest version

  • Version 1


    Published: 2019-12-18

    DOI: 10.17632/xwywvb2psm.1

    Cite this dataset

    Du, Lipei; Heinz, Ulrich (2019), “(3+1)-dimensional dissipative relativistic fluid dynamics at non-zero net baryon density”, Mendeley Data, v1 http://dx.doi.org/10.17632/xwywvb2psm.1


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Computational Physics, Relativistic Hydrodynamics


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