期刊
PHYSICAL REVIEW C
卷 82, 期 5, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevC.82.055202
关键词
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资金
- DFG (Germany) [436RUS 113/711/0-2]
- DFG (Russia) [NS-7235.2010.2]
- Helmholtz International Center for FAIR
We examine the nuclear liquid-gas phase transition at a large number of colors (N-c) within the framework of the van der Waals (VdW) We argue that the VdW equation is appropriate for describing internucleon forces, and discuss how each parameter scales with N-c. We demonstrate that N-c = 3 (our world) is not large with respect to the other dimensionless scale relevant to baryonic matter, the number of neighbors in a dense system N-N. Consequently, we show that the liquid-gas phase transition looks dramatically different at N-c -> infinity with respect to our world: The critical-point temperature becomes of the order of A(QCD) rather than below it. The critical-point density becomes of the order of the baryonic density, rather than an order of magnitude below it. These are precisely the characteristics usually associated with the quarkyonic phase. We therefore conjecture that quarkyonic matter is simply the large-N-c limit of the nuclear liquid, and the interplay between N-c and N-N is the reason that the nuclear liquid in our world is so different from quarkyonic matter. We conclude by suggesting ways in which our conjecture can be tested in future lattice measurements.
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