Boguslavski, K., Kurkela, A., Lappi, T., Lindenbauer, F., & Peuron, J. (2024). Heavy quark diffusion coefficient in heavy-ion collisions via kinetic theory. Physical Review D, 109(1), Article 014025. https://doi.org/10.1103/PhysRevD.109.014025
We compute the heavy quark momentum diffusion coefficient 𝜅 using QCD kinetic theory for a system going through bottom-up isotropization in the initial stages of a heavy ion collision. We find that the values of 𝜅 are within 30% from a thermal system at the same energy density. When matching for other quantities we observe considerably larger deviations. We also observe that the diffusion coefficient in the transverse direction is larger at high occupation numbers, whereas for an underoccupied system the longitudinal diffusion coefficient dominates. The behavior of the diffusion coefficient can be understood on a qualitative level based on the Debye mass 𝑚𝐷 and the effective temperature of soft modes 𝑇*. Our findings for the kinetic evolution of 𝜅 in different directions can be used in phenomenological descriptions of heavy quark diffusion and quarkonium dynamics to include the impact of preequilibrium stages.
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Research facilities:
Vienna Scientific Cluster
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Project title:
Nichtperturbative Eigenschaften evolvierenden gluonischer Plasmen: P 34455-N (FWF - Österr. Wissenschaftsfonds) Doktoratskolleg Particles and Interactions: W 1252-N27 (FWF - Österr. Wissenschaftsfonds)
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Project (external):
European Research Council European Union’s Horizon 2020 Knut and Alice Wallenberg foundation Academy of Finland Academy of Finland
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Project ID:
ERC-2018-ADG-835105 YoctoLHC STRONG-2020 project (Grant Agreement No. 824093) 2017.0036 Centre of Excellence in Quark Matter (Project No. 346324) 321840
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Research Areas:
Quantum Many-body Systems Physics: 50% Modeling and Simulation: 50%
