Constraining the dense matter equation of state with joint analysis of nicer and ligo/virgo measurements

G. Raaijmakers; S. K. Greif; T. E. Riley; T. Hinderer; K. Hebeler; A. Schwenk; A. L. Watts; S. Nissanke; S. Guillot; J. M. Lattimer; R. M. Ludlam

doi:10.3847/2041-8213/ab822f

Constraining the dense matter equation of state with joint analysis of nicer and ligo/virgo measurements

G. Raaijmakers
, S. K. Greif
, T. E. Riley
, T. Hinderer
, K. Hebeler
, A. Schwenk
, A. L. Watts
, S. Nissanke
, S. Guillot
, J. M. Lattimer
, R. M. Ludlam

Physics and Astronomy

University of Amsterdam
Technische Universität Darmstadt
GSI Helmholtz Centre for Heavy Ion Research
Delta Institute for Theoretical Physics
Max Planck Institute for Nuclear Physics
National Institute for Subatomic Physics
Institute de Recherche en Astrophysique et Planétologie
Université de Toulouse
California Institute of Technology

Research output: Contribution to journal › Article › peer-review

220 Scopus citations

Abstract

The Neutron Star Interior Composition Explorer collaboration recently published a joint estimate of the mass and the radius of PSR J0030+0451, derived via X-ray pulse-profile modeling. Raaijmakers et al. explored the implications of this measurement for the dense matter equation of state (EOS) using two parameterizations of the high-density EOS: a piecewise-polytropic model, and a model based on the speed of sound in neutron stars (NSs). In this work we obtain further constraints on the EOS following this approach, but we also include information about the tidal deformability of NSs from the gravitational wave signal of the compact binary merger GW170817. We compare the constraints on the EOS to those set by the recent measurement of a 2.14 M _o&dot; pulsar, included as a likelihood function approximated by a Gaussian, and find a small increase in information gain. To show the flexibility of our method, we also explore the possibility that GW170817 was a NS-black hole merger, which yields weaker constraints on the EOS.

Original language	English
Article number	L21
Journal	Astrophysical Journal Letters
Volume	893
Issue number	1
DOIs	https://doi.org/10.3847/2041-8213/ab822f
State	Published - Apr 10 2020

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title = "Constraining the dense matter equation of state with joint analysis of nicer and ligo/virgo measurements",

abstract = "The Neutron Star Interior Composition Explorer collaboration recently published a joint estimate of the mass and the radius of PSR J0030+0451, derived via X-ray pulse-profile modeling. Raaijmakers et al. explored the implications of this measurement for the dense matter equation of state (EOS) using two parameterizations of the high-density EOS: a piecewise-polytropic model, and a model based on the speed of sound in neutron stars (NSs). In this work we obtain further constraints on the EOS following this approach, but we also include information about the tidal deformability of NSs from the gravitational wave signal of the compact binary merger GW170817. We compare the constraints on the EOS to those set by the recent measurement of a 2.14 M o\&dot; pulsar, included as a likelihood function approximated by a Gaussian, and find a small increase in information gain. To show the flexibility of our method, we also explore the possibility that GW170817 was a NS-black hole merger, which yields weaker constraints on the EOS.",

author = "G. Raaijmakers and Greif, \{S. K.\} and Riley, \{T. E.\} and T. Hinderer and K. Hebeler and A. Schwenk and Watts, \{A. L.\} and S. Nissanke and S. Guillot and Lattimer, \{J. M.\} and Ludlam, \{R. M.\}",

year = "2020",

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AU - Raaijmakers, G.

AU - Greif, S. K.

AU - Riley, T. E.

AU - Hinderer, T.

AU - Hebeler, K.

AU - Schwenk, A.

AU - Watts, A. L.

AU - Nissanke, S.

AU - Guillot, S.

AU - Lattimer, J. M.

AU - Ludlam, R. M.

PY - 2020/4/10

Y1 - 2020/4/10

N2 - The Neutron Star Interior Composition Explorer collaboration recently published a joint estimate of the mass and the radius of PSR J0030+0451, derived via X-ray pulse-profile modeling. Raaijmakers et al. explored the implications of this measurement for the dense matter equation of state (EOS) using two parameterizations of the high-density EOS: a piecewise-polytropic model, and a model based on the speed of sound in neutron stars (NSs). In this work we obtain further constraints on the EOS following this approach, but we also include information about the tidal deformability of NSs from the gravitational wave signal of the compact binary merger GW170817. We compare the constraints on the EOS to those set by the recent measurement of a 2.14 M o&dot; pulsar, included as a likelihood function approximated by a Gaussian, and find a small increase in information gain. To show the flexibility of our method, we also explore the possibility that GW170817 was a NS-black hole merger, which yields weaker constraints on the EOS.

AB - The Neutron Star Interior Composition Explorer collaboration recently published a joint estimate of the mass and the radius of PSR J0030+0451, derived via X-ray pulse-profile modeling. Raaijmakers et al. explored the implications of this measurement for the dense matter equation of state (EOS) using two parameterizations of the high-density EOS: a piecewise-polytropic model, and a model based on the speed of sound in neutron stars (NSs). In this work we obtain further constraints on the EOS following this approach, but we also include information about the tidal deformability of NSs from the gravitational wave signal of the compact binary merger GW170817. We compare the constraints on the EOS to those set by the recent measurement of a 2.14 M o&dot; pulsar, included as a likelihood function approximated by a Gaussian, and find a small increase in information gain. To show the flexibility of our method, we also explore the possibility that GW170817 was a NS-black hole merger, which yields weaker constraints on the EOS.

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DO - 10.3847/2041-8213/ab822f

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SN - 2041-8205

VL - 893

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

IS - 1

M1 - L21

ER -

Constraining the dense matter equation of state with joint analysis of nicer and ligo/virgo measurements

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