Name: Dmytro Oliinychenko
Type: User
Company: Institute for Nuclear Theory, University of Washington
Bio: Former postdoc at Institute for Nuclear Theory, University of Washington. Simulating heavy ion collisions using transport approach and relativistic hydrodynamic
Dmytro Oliinychenko's Projects
Constructing light nuclei from nucleons out of transport code
Coarse-grains particles from UrQMD heavy ion collision simulation and computes negative Cooper-Frye contributions in two ways
This program computes the particle pair HBT correlation from Monte-Carlo samples of emitted particles
This is a repository that stores all the scripts for running event-by-event relativistic heavy-ion simulations.
Monte Carlo sampler for particle distribution from Cooper-Frye freeze-out procedure
JETSCAPE, a modular, task-based framework for simulating all aspects of heavy-ion collisions.
Sampling particles on a hypersurface with local event-by-event account of energy, momentum, baryon number, strangeness and charge conservation.
Interfaces between relativistic hydrodynamics and transport
Computing fluctuations of particle multiplicities in the canonical/microcanonical ensemble. Uses SMASH transport code (https://github.com/smash-transport/smash) and formulas developed in [ Hauer, Begun and Gorenstein, Eur. Phys. J. C 58, 83 (2008), doi:10.1140/epjc/s10052-008-0724-1 [arXiv:0706.3290 [nucl-th]].
Simulating Many Accelerated Strongly-interacting Hadrons
This repository contains code materials for the JETSCAPE Summer School 2020
Testing isotropization from UrQMD transport simulation of heavy ion collisions