In this section, you can download results obtained using the code. Please be so kind and cite the corresponding papers mentioned along with the data.
AdS+Hydro+Cascade results for boost-invariant smooth central RHIC Au+Au collisions @ Sqrt(s)=200 GeV : allsnapshots.tgz
Info: 200 MB, time-snapshots for energy density, temperature, flow velocities and shear stress tensor, created using the method described in van der Schee, Romatschke and Pratt, Phys.Rev.Lett. 111 (2013) 22, 222302, DOI: 10.1103/PhysRevLett.111.222302 e-Print: arXiv:1307.2539. (Includes Pre-equilibrium flow.)
SONIC: a Super-hybrid mOdel simulatioN for relativisitic heavy Ion Collisions, combines pre-equilibrium flow with viscous hydrodynamics (VH2+1) and a hadron cascade afterburner (B3D).
Details are provided in publication by Habich, Nagle, and Romatschke, The European Physical Journal C75 (2015) 1, 15, DOI: https://doi.org/10.1140/epjc/s10052-014-3206-7,
e-Print arXiv:1409.0040. Files contain time-snapshots for energy density, temperature, flow velocities and shear stress tensor.
SONIC results for boost-invariant, smooth, central C+C@Sqrt(s)=200 GeV: C-200GeV.tgz
Info: 9 MB.
SONIC results for boost-invariant, smooth, central Al+Al@Sqrt(s)=200 GeV: Al-200GeV.tgz
Info: 16 MB.
SONIC results for boost-invariant, smooth, central Cu+Cu@Sqrt(s)=62.4 GeV: Cu-62.4GeV.tgz
Info: 22 MB.
SONIC results for boost-invariant, smooth, central Cu+Cu@Sqrt(s)=200 GeV: Cu-200GeV.tgz
Info: 25 MB.
SONIC results for boost-invariant, smooth, central Au+Au@Sqrt(s)=62.4 GeV: Au-62.4GeV.tgz Info: 36 MB.
SONIC results for boost-invariant, smooth, central Au+Au@Sqrt(s)=200 GeV Au-200GeV.tgz
Info: 48 MB
SONIC results for boost-invariant, smooth, central Pb+Pb@Sqrt(s)=2.76 TeV: Pb-2.76TeV.tgz Info: 58 MB
SONIC results for boost-invariant, smooth, central Pb+Pb@Sqrt(s)=5.02 TeV: PbPb-5TeV.tgz
Info: 224 MB
SONIC results for boost-invariant, smooth, central Pb+Pb@Sqrt(s)=39 TeV (prediction): PbPb-39TeV.tgz
Info: 252 MB
General info: These snapshots contain files such as EDprofile_*.**.dat and Tcontour_*.***.dat, where *.** is the time-stamp in fm/c. Files called 'profile' are a one-dimensional profile along the x-axis whereas 'contour' files contain the full 2-dimensional information.
Last update: 18.04.2022