# New equation of states for postmerger supramassive quark stars

**Authors:** Ang Li, Zhen-Yu Zhu, and Xia Zhou

arXiv: 1706.04720 · 2018-06-21

## TL;DR

This paper develops new equations of state for postmerger supramassive quark stars, integrating observational data from short gamma-ray bursts and massive pulsars to better understand dense matter physics.

## Contribution

It introduces three new postmerger quark star equations of state that align with observational constraints and provides parameterizations for their properties.

## Key findings

- New postmerger quark star EoSs constructed
- EoS compatibility with observed mass distributions analyzed
- Implications for magnetar-powered kilonova discussed

## Abstract

Binary neutron star (NS) mergers with their subsequent fast-rotating supramassive magnetars are one attractive interpretation for at least some short gamma-ray bursts (SGRBs), based on the internal plateau commonly observed in the early X-ray afterglow. The rapid decay phase in this scenario signifies the epoch when the star collapses to a black hole after it spins down, and could effectively shed light on the underlying unclear equation of state (EoS) of dense matter. In the present work, we confront the protomagnetar masses of the internal plateau sample from representative EoS models, with the one independently from the observed galactic NS-NS binary, aiming to contribute new compact star EoSs from SGRB observations. For this purpose, we employ various EoSs covering a wide range of maximum mass for both NSs and quark stars (QSs), and in the same time satisfying the recent observational constraints of the two massive pulsars whose masses are precisely measured (around $2 M_{\odot}$). We first illustrate that how well the underlying EoS would reconcile with the current posterior mass distribution, is largely determined by the static maximum mass of that EoS. We then construct 3 new postmerger QS EoSs (PMQS1, PMQS2, PMQS3), respecting fully the observed distribution. We also provide easy-to-use parameterizations for both the EoSs and the corresponding maximum gravitational masses of rotating stars. In addition, we calculate the fractions of postmerger products for each EoS, and discuss potential consequences for the magnetar-powered kilonova model.

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/1706.04720/full.md

## References

71 references — full list in the complete paper: https://tomesphere.com/paper/1706.04720/full.md

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Source: https://tomesphere.com/paper/1706.04720