Nuclear Symmetry Energy and Hyperonic Stars in the QMC Model

Microscopic composition and properties of matter at super-saturation densities have been a subject of intense investigations for decades. Experimental and observational data and fundamental laws of physics indicate that heavy strange baryons and mesons are essential components of the matter. The Quark-Meson-Coupling-Model (QMC) is well suited for such a study. The model is based on interaction between quarks in individual baryons instead between the baryons as entities without internal structure. This approach significantly increases transparency and reduces the number of variable parameters of the model, thus offering deeper insight into the physics of high density hadronic matter. In this contribution, we review the effect of hyperons on neutron star (NS) properties, the speed of sound and the symmetry energy, both at zero and finite temperature. The QMC results are contrasted with the outcome of the traditional relativistic mean field DD2Y model. The (lack of) the so-called ‘hyperon puzzle’ in both models is discussed.

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Nuclear Symmetry Energy and Hyperonic Stars in the QMC Model

Cited by 7 publications

References 78 publications

Massive relativistic compact stars from SU(3) symmetric quark models

Massive relativistic compact stars from SU(3) symmetric quark models

Heavy baryons in compact stars

Exploring the role of hyperons in high density matter in the Quark-Meson-Coupling model

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