# Weighing Melnick 34: the most massive binary system known

**Authors:** Katie A. Tehrani, Paul A. Crowther, Joachim M. Bestenlehner, Stuart P., Littlefair, A. M. T. Pollock, Richard J. Parker, Olivier Schnurr

arXiv: 1901.04769 · 2019-01-23

## TL;DR

This study confirms Melnick 34 as the most massive known binary system, providing detailed orbital and spectral analysis, and suggesting its potential as a gravitational wave source.

## Contribution

First detailed orbital and spectral characterization of Melnick 34, establishing it as the most massive binary system known and a candidate for black hole merger progenitor.

## Key findings

- Masses of ~139 and 127 solar masses for the components.
- Orbital period of approximately 155 days with high eccentricity.
- Potential evolution into binary black holes within a few million years.

## Abstract

Here we confirm Melnick 34, an X-ray bright star in the 30 Doradus region of the Large Magellanic Cloud, as an SB2 binary comprising WN5h+WN5h components. We present orbital solutions using 26 epochs of VLT/UVES spectra and 22 epochs of archival Gemini/GMOS spectra. Radial-velocity monitoring and automated template fitting methods both reveal a similar high eccentricity system with a mass ratio close to unity, and an orbital period in agreement with the 155.1 +/- 1 day X-ray light curve period previously derived by Pollock et al. Our favoured solution derived an eccentricity of 0.68 +/- 0.02 and mass ratio of 0.92 +/- 0.07, giving minimum masses of Ma_sin^{3}(i) = 65 +/- 7 Msun and Mb_sin^{3}(i) = 60 +/- 7 Msun. Spectral modelling using WN5h templates with CMFGEN reveals temperatures of T ~53 kK for each component and luminosities of log(La/Lsun) = 6.43 +/- 0.08 and log(Lb/Lsun) = 6.37 +/- 0.08, from which BONNSAI evolutionary modelling gives masses of Ma = 139 (+21,-18) Msun and Mb = 127 (+17,-17) Msun and ages of ~0.6 Myrs. Spectroscopic and dynamic masses would agree if Mk34 has an inclination of i ~50{\deg}, making Mk34 the most massive binary known and an excellent candidate for investigating the properties of colliding wind binaries. Within 2-3 Myrs, both components of Mk34 are expected to evolve to stellar mass black holes which, assuming the binary system survives, would make Mk34 a potential binary black hole merger progenitor and gravitational wave source.

## Full text

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## Figures

18 figures with captions in the complete paper: https://tomesphere.com/paper/1901.04769/full.md

## References

62 references — full list in the complete paper: https://tomesphere.com/paper/1901.04769/full.md

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Source: https://tomesphere.com/paper/1901.04769