Phase structure of excited baryonic matter in the relativistic mean field theory
- 1 September 1987
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review C
- Vol. 36 (3) , 1019-1026
- https://doi.org/10.1103/physrevc.36.1019
Abstract
We analyze the phase structure of the nonlinear mean-field meson theory of baryonic matter (nucleons plus delta resonances). Depending on the choice of the coupling constants, we find three physically distinct phase transitions in this theory: a nucleonic liquid-gas transition in the low temperature, , regime, a high-temperature (T≃150 MeV) finite density transition from a gas of massive hadrons to a nearly massless baryon, antibaryon plasma, and, third, a strong phase transition from the nucleonic fluid to a resonance-dominated ‘‘delta-matter’’ isomer at ρ>2 and
Keywords
This publication has 15 references indexed in Scilit:
- Should the coupling constants be mass dependent in the relativistic mean-field models?Physics Letters B, 1986
- The Lee-Wick abnormal phase transition in a relativistic nuclear field modelPhysics Letters B, 1984
- Phase transition of the nucleon-antinucleon plasma in a relativistic mean-field theoryPhysical Review D, 1983
- Systematics of nuclear matter properties in a non-linear relativistic field theoryPhysics Letters B, 1983
- Baryonic degrees of freedom leading to density isomersPhysics Letters B, 1982
- Density dependence of the single-particle potential in nuclear matterPhysics Letters B, 1981
- Thermodynamic behavior of non-strange baryonic matterNuclear Physics A, 1979
- Dependence of particle production in high energy heavy ion collisions on the nuclear equation of stateThe European Physical Journal A, 1978
- Relativistic calculation of nuclear matter and the nuclear surfaceNuclear Physics A, 1977
- A theory of highly condensed matterAnnals of Physics, 1974