2018
DOI: 10.1103/physrevc.98.035804
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GW170817: Constraining the nuclear matter equation of state from the neutron star tidal deformability

Abstract: Constraints set on key parameters of the nuclear matter equation of state (EoS) by the values of the tidal deformability, inferred from GW170817, are examined by using a diverse set of relativistic and non-relativistic mean field models. These models are consistent with bulk properties of finite nuclei as well as with the observed lower bound on the maximum mass of neutron star ∼ 2 M⊙. The tidal deformability shows a strong correlation with specific linear combinations of the isoscalar and isovector nuclear ma… Show more

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Cited by 286 publications
(267 citation statements)
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“…Last but not least, the recent new constrains arising from the gravitational wave detections were considered. In the M-R plane, we verified that the R 1.4 13.76 km condition (Raithel et al 2018;Annala et al 2018;Malik et al 2018;Most et al 2018;Fattoyev et al 2018) is satisfied together with the restriction ofΛ < 800 (Abbott et al 2017a) in the Λ-M plane.…”
Section: Summary Discussion and Conclusionsupporting
confidence: 52%
See 1 more Smart Citation
“…Last but not least, the recent new constrains arising from the gravitational wave detections were considered. In the M-R plane, we verified that the R 1.4 13.76 km condition (Raithel et al 2018;Annala et al 2018;Malik et al 2018;Most et al 2018;Fattoyev et al 2018) is satisfied together with the restriction ofΛ < 800 (Abbott et al 2017a) in the Λ-M plane.…”
Section: Summary Discussion and Conclusionsupporting
confidence: 52%
“…The upper limit on the tidal deformability of the binary system,Λ < 800 (Abbott et al 2017a), has restricted the radius of a NS with a mass of 1.4 M to R 1. 4 13.76 km (Raithel et al 2018;Annala et al 2018;Malik et al 2018;Most et al 2018;Fattoyev et al 2018). In summary, although the EoS of extremely dense matter is still uncertain, new multi-messenger observations provide tight constraints for current models.…”
Section: Introductionmentioning
confidence: 95%
“…[34]. Malik et al [13] have recently examined possible correlations between tidal deformabilities and nuclear-matter parameters for a large set of EoSs. As can be seen from their results in Table I for a few selected NS masses, the symmetry-energy coefficient J (denoted by J 0 in their paper) has essentially no impact on k 2 and the slope L of the symmetry energy at saturation (denoted by L 0 in their paper) has only a moderate influence on k 2 (a similar conclusion can be drawn from the recent analysis of Ref.…”
Section: Role Of the Symmetry Energy And Of Neum On The Tidal Deformamentioning
confidence: 99%
“…EoS at densities relevant for medium-mass NSs. Incidentally, the analyses of K + production[95][96][97] and π − /π + production ratio[98] in heavy-ion collisions provide evidence for a soft EoS at similar densities.Combining empirical relations between Λ 1.4 and R 1.4 (see Section III B 1) with the upper limits on the tidal deformability obtained from the analyses of the gravitational-wave signal by the LIGO-Virgo collaboration[1,11] and De et al[10], different constraints have been proposed for the radius of a 1.4 M NS (see, e.g., Refs [13,14,17,77,99,100]…”
mentioning
confidence: 99%
“…Correlations between nuclear matter parameters and NS properties have been explored using several nuclear models [24][25][26][27][28][29][30][31][32]. These studies, however, show a considerable model dependence since different models with similar values of the nuclear matter parameters may result in different EoSs.…”
Section: Introductionmentioning
confidence: 99%