H. R. Moshfegh scite author profile

We reconsider the problem of the hyperon puzzle and its suggested solution by quark deconfinement within the two-phase approach to hybrid compact stars with recently obtained hadronic and quark matter equations of state. For the hadronic phase we employ the hypernuclear equation of state from the lowest order constrained variational method and the quark matter phase is described by a sufficiently stiff equation of state based on a color superconducting nonlocal Nambu-Jona-Lasinio model with constant (model A) and with density-dependent (model B) parameters. We study the model dependence of phase transition obtained by a Maxwell construction. Our study confirms that also with the present set of modern equations of state the quark deconfinement presents a viable solution of the hyperon puzzle even for the new constraint on the lower limit of the maximum mass from PSR J0740+6620. In this work we provide with model B for the first time a hybrid star EoS with an intermediate hypernuclear matter phase between the nuclear and color superconducting quark matter phases, for which the maximum mass of the compact star reaches 2.2 M , in accordance with most recent constraints. In model A such a phase cannot be realised because the phase transition onset is at low densities, before the hyperon threshold density is passed. We discuss possible consequences of the hybrid equation of state for the deconfinement phase transition in symmetric matter as it will be probed in future heavy-ion collisions at FAIR, NICA and corresponding energy scan programs at the CERN and RHIC facilities.

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Correlations in nuclear matter

Baldo

Moshfegh

2012

Phys. Rev. C

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We analyze the nuclear matter correlation properties in terms of the pair correlation function. To this aim we systematically compare the results for the variational method in the lowest-order constrained variational (LOCV) approximation and for the Bruekner-Hartree-Fock (BHF) scheme. A formal link between the Jastrow correlation factor of LOCV and the defect function (DF) of BHF is established and it is shown under which conditions and approximations the two approaches are equivalent. From the numerical comparison it turns out that the two correlation functions are quite close, which indicates in particular that the DF is approximately local and momentum independent. The equations of state (EOS) of nuclear matter in the two approaches are also compared. It is found that once the three-body forces (TBF) are introduced, the two EOS are fairly close, while the agreement between the correlation functions holds with or without TBF.

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Lowest order constrained variational method applied to liquid $^\mathsf{3}$He

Modarres

Moshfegh

Fallahi

2003

The European Physical Journal B - Condensed Matter

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Asymmetrical nuclear matter calculations with the new charge-dependent Reid potential

Moshfegh

Modarres

2005

Nuclear Physics A

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H. R. Moshfegh

First-order phase transition from hypernuclear matter to deconfined quark matter obeying new constraints from compact star observations

Correlations in nuclear matter

Lowest order constrained variational method applied to liquid $^\mathsf{3}$He

Asymmetrical nuclear matter calculations with the new charge-dependent Reid potential

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