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Transport-based initial conditions for heavy-ion collisions at finite densities

by Monnai, A , Fries, R J , Kumar, A , Mankolli, A , Martin, C , Nattrass, C , Jeon, S , Jacobs, P M , Luzum, M , Zhao, W , Kunnawalkam-Elayavalli, R , Singh, M , Norman, J , Schwiebert, L , Jacak, B V , Mak, S , L Du , Majumder, A , Kordell, M , Chartier, M , Latessa, J , Parker, C , Y Ji , Soltz, R A , Datta, R , Putschke, J H , Pihan, G , Elfner, H , Bass, S A , Senthilkumar, N , Chen, Y , Y -J Lee , Mengel, T , Roch, H , Ehlers, R , Dolan, R , Collaboration, JETSCAPE , Vujanovic, G , Schenke, B , Shen, C , X Wu , J -F Paquet , Velkovska, J , X -N Wang , Staudenmaier, J , Mehryar, H , Sirimanna, C , Tachibana, Y , Roland, G , Soudi, I , Jonas, F , Ryu, S , Gale, C , Sengupta, A , Hangal, D A , Ockleton, M , Zhang, J

in Equations of state / Heavy ions / Initial conditions / Ionic collisions / Momentum / Nuclear matter / Strangeness / Tensors

2026

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Transport-based initial conditions for heavy-ion collisions at finite densities

in Equations of state / Heavy ions / Initial conditions / Ionic collisions / Momentum / Nuclear matter / Strangeness / Tensors

2026

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Transport-based initial conditions for heavy-ion collisions at finite densities

in Equations of state / Heavy ions / Initial conditions / Ionic collisions / Momentum / Nuclear matter / Strangeness / Tensors

2026

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Paper

Transport-based initial conditions for heavy-ion collisions at finite densities

Monnai, A,

Fries, R J,

Kumar, A,

Mankolli, A,

Martin, C,

Nattrass, C,

Jeon, S,

Jacobs, P M,

Luzum, M,

Zhao, W,

Kunnawalkam-Elayavalli, R,

Singh, M,

Norman, J,

Schwiebert, L,

Jacak, B V,

Mak, S,

L Du,

Majumder, A,

Kordell, M,

Chartier, M,

Latessa, J,

Parker, C,

Y Ji,

Soltz, R A,

Datta, R,

Putschke, J H,

Pihan, G,

Elfner, H,

Bass, S A,

Senthilkumar, N,

Chen, Y,

Y -J Lee,

Mengel, T,

Roch, H,

Ehlers, R,

Dolan, R,

Collaboration, JETSCAPE,

Vujanovic, G,

Schenke, B,

Shen, C,

X Wu,

J -F Paquet,

Velkovska, J,

X -N Wang,

Staudenmaier, J,

Mehryar, H,

Sirimanna, C,

Tachibana, Y,

Roland, G,

Soudi, I,

Jonas, F,

Ryu, S,

Gale, C,

Sengupta, A,

Hangal, D A,

Ockleton, M,

Zhang, J

2026

Overview

We employ the SMASH transport model to provide event-by-event initial conditions for the energy-momentum tensor and conserved charge currents in hydrodynamic simulations of relativistic heavy-ion collisions. We study the fluctuations and dynamical evolution of three conserved charge currents (net baryon, net electric charges, and net strangeness) with a 4D lattice-QCD-based equation of state, NEOS-4D, in the hydrodynamic phase. Out-of-equilibrium corrections at the particlization are generalized to finite densities to ensure the conservation of energy, momentum, and the three types of charges. These theoretical developments are integrated within the X-SCAPE code as a unified framework for studying the nuclear matter properties in the Beam Energy Scan program.

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Cornell University Library, arXiv.org

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