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Ab initio constraints on thermal effects of the nuclear equation of state

Arianna Carbone, +2 more
- 20 Aug 2019 - 
- Vol. 100, Iss: 2, pp 025805
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TLDR
In this article, the authors exploit the many-body self-consistent Green's function method to analyze finite-temperature properties of infinite nuclear matter and explore the behavior of the thermal index used to simulate thermal effects in equations of state for astrophysical applications.
Abstract
We exploit the many-body self-consistent Green's function method to analyze finite-temperature properties of infinite nuclear matter and to explore the behavior of the thermal index used to simulate thermal effects in equations of state for astrophysical applications. We show how the thermal index is both density and temperature dependent, unlike often considered, and we provide an error estimate based on our ab initio calculations. The inclusion of three-body forces is found to be critical for the density dependence of the thermal index. We also compare our results to a parametrization in terms of the density dependence of the nucleon effective mass. Our findings point to possible shortcomings of predictions made for the gravitational-wave signal from neutron-star merger simulations with a constant thermal index.

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Citations
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Journal ArticleDOI

Equation of state effects in the core collapse of a 20 -M ☉ star

A. S. Schneider, +3 more
- 07 Nov 2019 - 
TL;DR: Uncertainties in our knowledge of the properties of dense matter near and above nuclear saturation density are among the main sources of variations in multimessenger signatures predicted for core-c... as discussed by the authors.
Journal ArticleDOI

Equation of State Effects in Core-Collapse Supernovae.

Hannah Yasin, +3 more
- 06 Mar 2020 - 
TL;DR: A range of equations of state that vary the nucleon effective mass, incompressibility, symmetry energy, and nuclear saturation point are introduced to investigate the impact of different properties of the nuclear equation of state in core-collapse supernovae, with a focus on the proto-neutron-star contraction and its impact on the shock evolution.
Journal ArticleDOI

Three-nucleon forces: Implementation and applications to atomic nuclei and dense matter

Kai Hebeler
- 18 Jan 2021 - 
TL;DR: In this article, the authors present a selection of the latest calculations of atomic nuclei as well as nuclear matter based on state-of-the-art nuclear NN and 3N interactions derived within chiral EFT.
Journal ArticleDOI

Equation of State and Progenitor Dependence of Stellar-mass Black Hole Formation

A. S. Schneider, +4 more
- 29 Apr 2020 - 
TL;DR: The core collapse of a massive star results in the formation of a proto-neutron star (PNS) as discussed by the authors, and if enough material is accreted onto a PNS, it will become gravitationally unstable and further collapse.
Journal ArticleDOI

Unified weak and strong coupling framework for nuclear matter and neutron stars

Niko Jokela, +6 more
- 09 Apr 2021 - 
TL;DR: In this article, a family of viable hybrid equations of state (EOSs) passing the constraints of existing constraints from astrophysics of compact stars and discuss their implications for the hybrid EOSs.
References
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Journal ArticleDOI

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Evgeny Epelbaum, +2 more
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TL;DR: In this article, the nuclear forces can be derived using effective chiral Lagrangians consistent with the symmetries of QCD, and the status of the calculations for two and three nucleon forces and their applications in few-nucleon systems are reviewed.
Journal ArticleDOI

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