Mass–radius relation of neutron stars and massive pulsars with realistic equation of state

Seif, W M; Hashem, A S; Abualhamd, H A

doi:10.1088/1361-6471/ad3c5a

J. Phys. G: Nucl. Part. Phys.

2024

DOI: 10.1088/1361-6471/ad3c5a

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Mass–radius relation of neutron stars and massive pulsars with realistic equation of state

W M Seif,

A S Hashem,

H A Abualhamd

Abstract: We use up-to-date constraints on the mass and radius of 15 neutron star objects and pulsars, from electromagnetic and gravitational wave observables and different theoretical schemes, to extend the nuclear equation of state (EOS) based on realistic M3Y nucleon-nucleon interaction, which truly accounts for the low-density EOS of nuclear matter, to describe dense nuclear matter. The considered EOSs are employed to map the mass-radius profiles using the Tolman-Oppenheimer-Volkoff equations of hydrostatic equilibr… Show more

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2024

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Impact of the stiffness of equation of state on saturation properties of asymmetric nuclear matter and Urca cooling in neutron stars

Hashem,

Hassanien,

Seif

2024

Phys. Scr.

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We consider nuclear equation of state (EOS) based on the semi-realistic M3Y-Paris and M3Y-Reideffective nucleon-nucleon (NN) interactions to assess the influence of the stiffness of the isospinasymmetricnuclear matter (ANM) on its isoscalar and isovector saturation properties, and on theβ-stable proton fraction in neutron star (NS) matter. Two parameterizations schemes of the CDM3Yisovector density dependence of the NN interaction are adopted, one is scaled to the isoscalar densitydependence and the other (IVF1) is developed independently of it. We found that the stiffer EOSyields larger binding saturation density that decreases with the isospin asymmetry (I), and slightlydecreases the maximum asymmetry (Imax) reached for bound ANM. The density-slope (L) of thesymmetry energy is found to correlate directly with the stiffness of ANM, meanwhile the symmetryenergycurvature (Ksym) and the quadratic isovector incompressibility coefficient (Kτ ) are foundto correlate with it inversely. We found also that the stiffer EOS indicates larger neutron-richnpeμ NS matter under β-equilibrium. Only the CDM3Y-Paris EOSs of isoscalar incompressibilityK0 up to 270 MeV and that of CDM3Y-Reid with K0 = 200 MeV indicate allowed direct URCA(DU) cooling process in β-stable NS matter, at densities greater than 3.5 ρ0, based on the IVF1density dependence. The stiffer EOS proposes a narrower density range for DU process in NS.According to the considered Paris (Reid) forces, muons can emerge in cold β-stable npe matter atρ ≥ 0.85 ρ0 (0.79 ρ0), which slightly decreases both the neutron richness at NS core and the DUthreshold density.

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Impact of the stiffness of equation of state on saturation properties of asymmetric nuclear matter and Urca cooling in neutron stars

Hashem,

Hassanien,

Seif

2024

Phys. Scr.

View full text Add to dashboard Cite

show abstract

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Mass–radius relation of neutron stars and massive pulsars with realistic equation of state

Cited by 1 publication

References 95 publications

Impact of the stiffness of equation of state on saturation properties of asymmetric nuclear matter and Urca cooling in neutron stars

Impact of the stiffness of equation of state on saturation properties of asymmetric nuclear matter and Urca cooling in neutron stars

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