On the distance to the black hole X-ray binary Swift J1727.8$-$1613

Benjamin J. Burridge (1); James C. A. Miller-Jones (1); Arash Bahramian (1); Steve R. Prabu (1; 2); Reagan Streeter (1); Noel Castro Segura (3); Jes\'us M. Corral Santana (4); Christian Knigge (5); Andrzej Zdziarski (6); Daniel Mata S\'anchez (7; 8); Evangelia Tremou (9); Francesco Carotenuto (10); Rob Fender (2); Payaswini Saikia (11) ((1) International Centre for Radio Astronomy Research; Curtin University; Perth; Australia; (2) Astrophysics; Department of Physics; University of Oxford; Oxford; UK; (3) Department of Physics; University of Warwick; Coventry; UK; (4) European Southern Observatory; Santiago; Chile; (5) School of Physics & Astronomy; University of Southampton; Southampton; UK; (6) Nicolaus Copernicus Astronomical Center; Polish Academy of Sciences; Warszawa; Poland; (7) Instituto de Astrof\'isica de Canarias; Tenerife; Spain; (8); Departamento de Astrof\'isica; Univ. de La Laguna; Tenerife; Spain; (9) National Radio Astronomy Observatory; Socorro; USA; (10) INAF-Osservatorio Astronomico di Roma; Monte Porzio Catone; Italy; (11) Center for Astrophysics; Space Science; New York University Abu Dhabi; Abu Dhabi; UAE)

arXiv:2502.06448·astro-ph.HE·October 1, 2025

On the distance to the black hole X-ray binary Swift J1727.8$-$1613

Benjamin J. Burridge (1), James C. A. Miller-Jones (1), Arash Bahramian (1), Steve R. Prabu (1, 2), Reagan Streeter (1), Noel Castro Segura (3), Jes\'us M. Corral Santana (4), Christian Knigge (5), Andrzej Zdziarski (6), Daniel Mata S\'anchez (7, 8), Evangelia Tremou (9)

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TL;DR

This paper refines the distance estimate to the black hole X-ray binary Swift J1727.8$-$1613 using radio and UV spectra, revealing its likely location within the Galaxy and implications for its supernova origin.

Contribution

It combines radio HI absorption and UV spectral data with Monte Carlo simulations to provide a more accurate distance estimate for Swift J1727.8$-$1613.

Findings

01

Distance to Swift J1727.8$-$1613 is approximately 5.5 kpc.

02

The system likely received a natal kick velocity of about 190 km/s.

03

The supernova explosion was probably asymmetrical within the Galactic disk.

Abstract

We review the existing distance estimates to the black hole X-ray binary Swift J1727.8 $-$ 1613, present new radio and near-UV spectra to update the distance constraints, and discuss the accuracies and caveats of the associated methodologies. We use line-of-sight HI absorption spectra captured using the MeerKAT radio telescope to estimate a maximum radial velocity with respect to the local standard of rest of $24.8 \pm 2.8 km s^{- 1}$ for Swift J1727.8 $-$ 1613, which is significantly lower than that of a nearby extragalactic reference source. From this we derive a near kinematic distance of $d_{near} = 3.6 \pm 0.3 (s t a t) \pm 2.3 (sy s) kpc$ as a lower bound after accounting for additional uncertainties given its Galactic longitude and latitude, $(l, b) \approx (8. 6^{\circ}, 10. 3^{\circ})$ . Near-UV spectra from the Hubble Space Telescope's Space Telescope…

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Taxonomy

TopicsAstrophysical Phenomena and Observations · Mechanics and Biomechanics Studies