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Quark matter at high density based on an extended confined isospin-density-dependent mass model

2016; American Physical Society; Volume: 93; Issue: 2 Linguagem: Inglês

10.1103/physrevd.93.025022

2470-0037

Ali Ikhsanul Qauli, A. Sulaksono,

Cold Atom Physics and Bose-Einstein Condensates

We investigate the effect of the inclusion of relativistic Coulomb terms in a confined-isospin-density-dependent-mass (CIDDM) model of strange quark matter (SQM). We found that if we include the Coulomb term in scalar density form, the SQM equation of state (EOS) at high densities is stiffer but if we include the Coulomb term in vector density form it is softer than that of the standard CIDDM model. We also investigate systematically the role of each term of the extended CIDDM model. Compared with what was reported by Chu and Chen [Astrophys. J. 780, 135 (2014)], we found the stiffness of SQM EOS is controlled by the interplay among the oscillator harmonic, isospin asymmetry and Coulomb contributions depending on the parameter's range of these terms. We have found that the absolute stable condition of SQM and the mass of $2{M}_{\ensuremath{\bigodot}}$ pulsars can constrain the parameter of oscillator harmonic ${\ensuremath{\kappa}}_{1}\ensuremath{\approx}0.53$ in the case the Coulomb term is excluded. If the Coulomb term is included, for the models with their parameters are consistent with SQM absolute stability condition, the $2.0{M}_{\ensuremath{\bigodot}}$ constraint more prefers the maximum mass prediction of the model with the scalar Coulomb term than that of the model with the vector Coulomb term. On the contrary, the high densities EOS predicted by the model with the vector Coulomb is more compatible with the recent perturbative quantum chromodynamics result [1] than that predicted by the model with the scalar Coulomb. Furthermore, we also observed the quark composition in a very high density region depends quite sensitively on the kind of Coulomb term used.