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Nuclear liquid-gas phase transition with machine learning

Nuclear Theory 2020-11-17 v1 Nuclear Experiment

Abstract

The machine-learning techniques have shown their capability for studying phase transitions in condensed matter physics. Here, we employ the machine-learning techniques to study the nuclear liquid-gas phase transition. We adopt an unsupervised learning and classify the liquid and gas phases of nuclei directly from the final state raw experimental data of heavy-ion reactions. Based on a confusion scheme which combines the supervised and unsupervised learning, we obtain the limiting temperature of the nuclear liquid-gas phase transition. Its value 9.24±0.04 MeV9.24\pm0.04~\rm MeV is consistent with that obtained by the traditional caloric curve method. Our study explores the paradigm of combining the machine-learning techniques with heavy-ion experimental data, and it is also instructive for studying the phase transition of other uncontrollable systems, like QCD matter.

Keywords

Cite

@article{arxiv.2010.15043,
  title  = {Nuclear liquid-gas phase transition with machine learning},
  author = {Rui Wang and Yu-Gang Ma and R. Wada and Lie-Wen Chen and Wan-Bing He and Huan-Ling Liu and Kai-Jia Sun},
  journal= {arXiv preprint arXiv:2010.15043},
  year   = {2020}
}

Comments

9 pages, 8 figures, 1 table; Physical Review Research, in press (2020)

R2 v1 2026-06-23T19:43:10.324Z