Real-time evolution of critical modes in the QCD phase diagram

Abstract:

A QCD-assisted relaxation dynamic model for the critical mode of the critical end point (CEP) in the QCD phase diagram is developed, which allows us to investigate the critical slowing down effect quantitatively in the QCD phase diagram, especially in the proximity of the CEP, without any phenomenological parameters. The relaxation time from nonequilibrium to equilibrium in the QCD phase diagram is extracted from the Langevin simulations of the QCD-assisted relaxation dynamic model. It is found that in a narrow region along the phase boundary radiated from the CEP, the relaxation time is enhanced significantly. Outside this narrow region, the relaxation time drops drastically, which implies that the dynamic critical region is small in the QCD phase diagram. We also find that the effects of critical slowing down are mild on the chemical freeze-out curves.

Y.-y. Tan, S. Yin, Y.-r. Chen, C. Huang, W.-j. Fu, „Real-time evolution of critical modes in
the QCD phase diagram“, 3. Dez. 2025, arXiv:2512.03614 (2025).

https://arxiv.org/abs/2512.03614

Related to Project B03