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Progress on 3+1D Glasma simulations.

Andreas Ipp1, David I Müller1

  • 1Institute for Theoretical Physics, TU Wien, Wiedner Hauptstr. 8-10, 1040 Vienna, Austria.

The European Physical Journal. A, Hadrons and Nuclei
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Summary
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We present progress on 3+1D Glasma simulations for heavy-ion collisions. Our methods accurately model early collision stages and gluonic fields, enabling comparisons with experimental data.

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Area of Science:

  • High-energy nuclear physics
  • Quantum chromodynamics
  • Heavy-ion collisions

Background:

  • Understanding the earliest moments of heavy-ion collisions is crucial for nuclear physics.
  • The Glasma state describes the strongly interacting gluonic fields preceding the quark-gluon plasma.

Purpose of the Study:

  • To review progress on 3+1D Glasma simulations.
  • To model the initial stages of heavy-ion collisions, including finite nuclei.
  • To enable comparisons with experimental data and future high-energy simulations.

Main Methods:

  • Utilizing 3+1 dimensional simulations in the laboratory frame.
  • Employing the colored particle-in-cell method for simulating gluonic fields.
  • Calculating the 3+1D Glasma energy-momentum tensor.

Main Results:

  • Simulations include nuclei with finite longitudinal extent.
  • Rapidity dependence of the energy-momentum tensor is computed.
  • An improved scheme addresses numerical Cherenkov instability.

Conclusions:

  • The 3+1D Glasma simulations provide a framework for studying early heavy-ion collisions.
  • The developed methods allow for comparison with experimental pion multiplicity data.
  • The improved simulation scheme is essential for future high-energy physics studies at the LHC.