Pre-equilibrium evolution of conserved charges with initial conditions in the ICCING Monte Carlo event generator

P. Carzon; M. Martinez; J. Noronha-Hostler; P. Plaschke; S. Schlichting; M. Sievert

doi:10.1103/PhysRevC.108.064905

Pre-equilibrium evolution of conserved charges with initial conditions in the ICCING Monte Carlo event generator

P. Carzon
, M. Martinez
, J. Noronha-Hostler
, P. Plaschke
, S. Schlichting
, M. Sievert

Research output: Contribution to journal › Article › peer-review

Abstract

Heavy-ion collisions can be well described through relativistic viscous hydrodynamics, but questions still remain when hydrodynamics is applicable because the initial state may begin very far from equilibrium. Thus, a pre-equilibrium evolution phase is used to bridge the gap between the initial state and hydrodynamics. KøMPøST is one such pre-equilibrium model that propagates the energy-momentum tensor by decomposing it into the background and fluctuations around that background, whose evolution is captured by Green's functions. We extend this formalism to include conserved charges and calculate the corresponding nonequilibrium Green's functions in the relaxation-time approximation. The ICCING algorithm initializes conserved charges in the initial state by sampling g→qq¯ splitting probabilities and is, thus, perfectly positioned to implement Green's functions for charge propagation. We show that this method alters the initial-state charge geometries and is applicable in central to mid-central collisions.

Original language	English (US)
Article number	064905
Journal	Physical Review C
Volume	108
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevC.108.064905
State	Published - Dec 2023

ASJC Scopus subject areas

Nuclear and High Energy Physics

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10.1103/PhysRevC.108.064905

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title = "Pre-equilibrium evolution of conserved charges with initial conditions in the ICCING Monte Carlo event generator",

abstract = "Heavy-ion collisions can be well described through relativistic viscous hydrodynamics, but questions still remain when hydrodynamics is applicable because the initial state may begin very far from equilibrium. Thus, a pre-equilibrium evolution phase is used to bridge the gap between the initial state and hydrodynamics. K{\o}MP{\o}ST is one such pre-equilibrium model that propagates the energy-momentum tensor by decomposing it into the background and fluctuations around that background, whose evolution is captured by Green's functions. We extend this formalism to include conserved charges and calculate the corresponding nonequilibrium Green's functions in the relaxation-time approximation. The ICCING algorithm initializes conserved charges in the initial state by sampling g→qq¯ splitting probabilities and is, thus, perfectly positioned to implement Green's functions for charge propagation. We show that this method alters the initial-state charge geometries and is applicable in central to mid-central collisions.",

author = "P. Carzon and M. Martinez and J. Noronha-Hostler and P. Plaschke and S. Schlichting and M. Sievert",

note = "P.P. and S.S. acknowledge support by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) through the CRC-TR 211 “Strong-interaction matter under extreme conditions,” project number 315477589 - TRR 211. J.N.H. and P.C. acknowledge support from the US-DOE Nuclear Science Grants No. DE-SC0020633 and No. DE-SC0023861 and the support from the Illinois Campus Cluster, a computing resource that is operated by the Illinois Campus Cluster Program (ICCP) in conjunction with the National Center for Supercomputing Applications (NCSA), and which is supported by funds from the University of Illinois at Urbana-Champaign. M.S. is supported by a start-up grant from New Mexico State University. M.M. was supported in part by the US Department of Energy Grant No. DE-FG02-03ER41260 and BEST (Beam Energy Scan Theory) DOE Topical Collaboration. The authors also acknowledge computing time provided by the Paderborn Center for Parallel Computing (PC2) and the National Energy Research Scientific Computing Center, a DOE Office of Science User Facility supported by the Office of Science of the U.S. Department of Energy under Contract No. DE-AC02-05CH11231.",

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doi = "10.1103/PhysRevC.108.064905",

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AU - Schlichting, S.

AU - Sievert, M.

N1 - P.P. and S.S. acknowledge support by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) through the CRC-TR 211 “Strong-interaction matter under extreme conditions,” project number 315477589 - TRR 211. J.N.H. and P.C. acknowledge support from the US-DOE Nuclear Science Grants No. DE-SC0020633 and No. DE-SC0023861 and the support from the Illinois Campus Cluster, a computing resource that is operated by the Illinois Campus Cluster Program (ICCP) in conjunction with the National Center for Supercomputing Applications (NCSA), and which is supported by funds from the University of Illinois at Urbana-Champaign. M.S. is supported by a start-up grant from New Mexico State University. M.M. was supported in part by the US Department of Energy Grant No. DE-FG02-03ER41260 and BEST (Beam Energy Scan Theory) DOE Topical Collaboration. The authors also acknowledge computing time provided by the Paderborn Center for Parallel Computing (PC2) and the National Energy Research Scientific Computing Center, a DOE Office of Science User Facility supported by the Office of Science of the U.S. Department of Energy under Contract No. DE-AC02-05CH11231.

PY - 2023/12

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N2 - Heavy-ion collisions can be well described through relativistic viscous hydrodynamics, but questions still remain when hydrodynamics is applicable because the initial state may begin very far from equilibrium. Thus, a pre-equilibrium evolution phase is used to bridge the gap between the initial state and hydrodynamics. KøMPøST is one such pre-equilibrium model that propagates the energy-momentum tensor by decomposing it into the background and fluctuations around that background, whose evolution is captured by Green's functions. We extend this formalism to include conserved charges and calculate the corresponding nonequilibrium Green's functions in the relaxation-time approximation. The ICCING algorithm initializes conserved charges in the initial state by sampling g→qq¯ splitting probabilities and is, thus, perfectly positioned to implement Green's functions for charge propagation. We show that this method alters the initial-state charge geometries and is applicable in central to mid-central collisions.

AB - Heavy-ion collisions can be well described through relativistic viscous hydrodynamics, but questions still remain when hydrodynamics is applicable because the initial state may begin very far from equilibrium. Thus, a pre-equilibrium evolution phase is used to bridge the gap between the initial state and hydrodynamics. KøMPøST is one such pre-equilibrium model that propagates the energy-momentum tensor by decomposing it into the background and fluctuations around that background, whose evolution is captured by Green's functions. We extend this formalism to include conserved charges and calculate the corresponding nonequilibrium Green's functions in the relaxation-time approximation. The ICCING algorithm initializes conserved charges in the initial state by sampling g→qq¯ splitting probabilities and is, thus, perfectly positioned to implement Green's functions for charge propagation. We show that this method alters the initial-state charge geometries and is applicable in central to mid-central collisions.

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Pre-equilibrium evolution of conserved charges with initial conditions in the ICCING Monte Carlo event generator

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