Fermi Liquid Properties of Nuclear Matter in a Relativistic Mean - Field Theory
Mar, 198124 pages
Published in:
- Nucl.Phys.A 370 (1981) 365-388
- Published: 1981
Report number:
- ITP-688-STANFORD
Citations per year
Abstract: (Elsevier)
The Fermi-liquid properties of the model nuclear system described by a relativistic quantum field theory are examined in terms of a relativistic extension of Landau's Fermi-liquid theory. The relativistic Landau parameters are derived microscopically from the ground state energy in the mean-field approximation, and are used to describe the thermodynamic properties of the system, such as the compressibility, the symmetry energy and the hydrodynamic sound velocities. We reproduce the previous results at nuclear saturation density ( n 0 = 0.19 fm −3 ) and extrapolate to all density regions. It is shown that the system exhibits instability against the long wavelength density fluctuations in the low density region ( n B <0.70 n 0 ) and becomes stable at and above the nuclear saturation density due to the relativistic reduction of the attractive scalar meson component in the quasiparticle interaction. In the extreme high-density region, we reproduce the correct causal results for sound velocities. The existence of collisionless zero-sound oscillation is also examined.- NUCLEAR MATTER
- FERMION: LIQUID
- FIELD THEORY: RELATIVISTIC
- APPROXIMATION: MEAN FIELD
- THERMODYNAMICS
- NUCLEAR PROPERTIES
- DENSITY
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