The environment of the binary neutron star merger GW170817

A.J. Levan; J.D. Lyman; N.R. Tanvir; J. Hjorth; I. Mandel; E.R.; Stanway; D. Steeghs; A.S. Fruchter; E. Troja; S.L Schr{\o}der; K. Wiersema,; S.H. Bruun; Z. Cano; S.B. Cenko; A de Ugarte Postigo; P. Evans; S. Fairhurst,; O.D. Fox; J.P.U. Fynbo; B. Gompertz; J. Greiner; M. Im; L. Izzo; P.; Jakobsson; T. Kangas; H.G. Khandrika; A.Y. Lien; D. Malesani; P. O'Brien,; J.P. Osborne; E. Plazzi; E. Pian; D.A. Perley; S. Rosswog; R.E. Ryan; S.; Schulze; P. Sutton; C.C. Th\"one; D.J. Watson; R.A.M.J. Wijers

arXiv:1710.05444·astro-ph.HE·October 17, 2017

The environment of the binary neutron star merger GW170817

A.J. Levan, J.D. Lyman, N.R. Tanvir, J. Hjorth, I. Mandel, E.R., Stanway, D. Steeghs, A.S. Fruchter, E. Troja, S.L Schr{\o}der, K. Wiersema,, S.H. Bruun, Z. Cano, S.B. Cenko, A de Ugarte Postigo, P. Evans, S. Fairhurst,, O.D. Fox, J.P.U. Fynbo, B. Gompertz, J. Greiner, M. Im

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TL;DR

This study uses multi-wavelength observations to analyze the environment and host galaxy of GW170817, revealing insights into its galaxy's recent merger history and the binary's location relative to stellar populations.

Contribution

It provides detailed imaging and spectroscopic analysis of GW170817's host galaxy, offering new insights into the galaxy's recent merger history and the binary's environment.

Findings

01

NGC 4993 shows signs of a recent dry merger.

02

The binary's location is in an old stellar population with low extinction.

03

The offset from the galaxy center is consistent with low kick velocity.

Abstract

We present Hubble Space Telescope and Chandra imaging, combined with Very Large Telescope MUSE integral field spectroscopy of the counterpart and host galaxy of the first binary neutron star merger detected via gravitational wave emission by LIGO & Virgo, GW170817. The host galaxy, NGC 4993, is an S0 galaxy at z=0.009783. There is evidence for large, face-on spiral shells in continuum imaging, and edge-on spiral features visible in nebular emission lines. This suggests that NGC 4993 has undergone a relatively recent (<1 Gyr) ``dry'' merger. This merger may provide the fuel for a weak active nucleus seen in Chandra imaging. At the location of the counterpart, HST imaging implies there is no globular or young stellar cluster, with a limit of a few thousand solar masses for any young system. The population in the vicinity is predominantly old with <1% of any light arising from a population…

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