On IC 10 X-1, the Most Massive Known Stellar-Mass Black Hole

TL;DR

This study confirms that IC 10 X-1 hosts the most massive known stellar-mass black hole, based on new spectroscopic data and refined orbital measurements of its Wolf-Rayet star companion.

Contribution

The paper provides new spectroscopic observations and orbital analysis that solidify IC 10 X-1 as containing the most massive stellar-mass black hole known.

Findings

Confirmed the black hole mass is at least 23 M_sun.

Derived a precise orbital period of approximately 34.93 hours.

Established the black hole's mass exceeds previous estimates.

Abstract

IC 10 X-1 is a variable X-ray source in the Local Group starburst galaxy IC 10 whose optical counterpart is a Wolf-Rayet (WR) star. Prestwich et al. (2007) recently proposed that it contains the most massive known stellar-mass black hole (23-34 M_sun), but their conclusion was based on radial velocities derived from only a few optical spectra, the most important of which was seriously affected by a CCD defect. Here we present new spectra of the WR star, spanning one month, obtained with the Keck-I 10 m telescope. The spectra show a periodic shift in the He II 4686 Ang. emission line as compared with IC 10 nebular lines such as [O III] 5007 Ang. From this, we calculate a period of 34.93+/-0.04 hr (consistent with the X-ray period of 34.40+/-0.83 hr reported by Prestwich et al. 2007) and a radial-velocity semi-amplitude of 370+/-20 km/s. The resulting mass function is 7.64+/-1.26 M_sun, consistent with that of Prestwich et al. (2007) (7.8 M_sun). This, combined with the previously estimated (from spectra) mass of 35 M_sun for the WR star, yields a minimum primary mass of 32.7+/-2.6 M_sun. Even if the WR star has a mass of only 17 M_sun, the minimum primary mass is 23.1+/-2.1 M_sun. Thus, IC 10 X-1 is indeed a WR/black-hole binary containing the most massive known stellar-mass black hole.