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A field theoretical model for quarkyonic matter

Gaoqing Cao, Jinfeng Liao

2020Journal of High Energy Physics27 citationsDOIOpen Access PDF

Abstract

A bstract The possibility that nuclear matter at a density relevant to the interior of massive neutron stars may be a quarkynoic matter has attracted considerable recent interest. In this work, we construct a phenomenological model to describe the quarkyonic matter, that would allow quantitative calculations of its various properties within a well-defined field theoretical framework. This is implemented by synthesizing the Walecka model together with the quark-meson model, where both quark and nucleon degrees of freedom are present based on the quarkyonic scenario. With this model we compute at mean-field level the thermodynamic properties of the symmetric nuclear matter and calibrate model parameters through well-known nuclear physics measurements. We find this model gives a very good description of the symmetric nuclear matter from moderate to high baryon density and demonstrates a continuous transition from nucleon-dominance to quark-dominance for the system.

Topics & Concepts

PhysicsNuclear matterNeutron starTheoretical physicsStrange matterField (mathematics)BaryonParticle physicsNeutronPhenomenological modelDegrees of freedom (physics and chemistry)Nuclear densityNucleonBaryon numberMean field theoryStatistical physicsQuark modelQuantum electrodynamicsNuclear physicsDark matterDense matterNuclear forceQuarkEffective field theoryEquation of stateClassical mechanicsField theory (psychology)Nuclear structurePulsars and Gravitational Waves ResearchNuclear physics research studiesQuantum Chromodynamics and Particle Interactions
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