Jing Ye, J. Margueron, Niu Li, W. Z. Jiang
Published 2023-10-25Version 1
The meaningful correlations between the zero-sound modes and the stiffness of the nuclear equation of state (EOS) are uncovered in nuclear matter with the relativistic mean-field theory. It is demonstrated that the high-density zero-sound modes merely exist in models with the stiff EOS. While the stiff EOS can be softened by including {\omega}-meson self-interactions (the {\omega}4 term), the weakened coupling of the {\omega}-meson self-interactions reignites the zero sound at high density. These results suggest that the high-density zero-sound modes can be used to probe the stiffness of the EOS at supra-normal densities. The implications and effects of zero sounds are also discussed in heavy ion collisions and neutron stars.
Disappearance of Elliptic Flow: A New Probe for the Nuclear Equation of State
A path to the Nuclear Equation of State within the frameworks of Mean-Field and Fermionic Dynamics
Sensitivity of the nuclear equation of state towards relativistic effects
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