• NUCLEAR TECHNIQUES
  • Vol. 46, Issue 4, 040010 (2023)
Yi YIN*
Author Affiliations
  • Institution of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China
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    DOI: 10.11889/j.0253-3219.2023.hjs.46.040010 Cite this Article
    Yi YIN. The BEST framework for exploring the QCD phase diagram: progress summary[J]. NUCLEAR TECHNIQUES, 2023, 46(4): 040010 Copy Citation Text show less
    A sketch of the QCD phase diagram[2]
    Fig. 1. A sketch of the QCD phase diagram[2]
    Chiral phase transition temperature vs. chemical potential from Lattice QCD[2-3]
    Fig. 2. Chiral phase transition temperature vs. chemical potential from Lattice QCD[2-3]
    Illustration of the non-equilibrium effect near the QCD critical point[2]
    Fig. 3. Illustration of the non-equilibrium effect near the QCD critical point[2]
    Trajectories on the QCD phase diagram from hydrodynamic simulations for BESII[1]
    Fig. 4. Trajectories on the QCD phase diagram from hydrodynamic simulations for BESII[1]
    Proton multiplicity as a function of momentum rapidity[22]
    Fig. 5. Proton multiplicity as a function of momentum rapidity[22]
    Non-equilibrium evolution of the critical non-Gaussian fluctuations[17](a) Near the critical point, (b) Away from the critical point
    Fig. 6. Non-equilibrium evolution of the critical non-Gaussian fluctuations[17](a) Near the critical point, (b) Away from the critical point