An infrared FWHM-<i>K</i><sub>2</sub> correlation to uncover highly reddened quiescent black holes
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Date
2023
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Abstract
Among the sample of Galactic transient X-ray binaries (SXTs) discovered to date, about 70 have been proposed as likely candidates to host a black hole. Yet, only 19 have been dynamically confirmed. Such a reliable confirmation requires phase-resolved spectroscopy of their companion stars, which is generally feasible when the system is in a quiescent state. However, since most of the SXT population lies in the galactic plane, which is strongly affected by interstellar extinction, their optical brightness during quiescence usually falls beyond the capabilities of the current instrumentation (R greater than or similar to 22). To overcome these limitations and thereby increase the number of confirmed Galactic black holes, a correlation between the full-width at half maximum (FWHM) of the H alpha line and the semi-amplitude of the donor's radial velocity curve (K-2) was presented in the past. Here, we extend the FWHM-K-2 correlation to the near-infrared (NIR), exploiting disc lines such as He I lambda 10830, Pa gamma, and Br gamma, in a sample of dynamically confirmed black-hole SXTs. We obtain K-2 = 0.22(3) FWHM, in good agreement with the optical correlation derived using H alpha. The similarity of the two correlations seems to imply that the widths of H alpha and the NIR lines are consistent in quiescence. When combined with information on orbital periods, the NIR correlation allows us to constrain the mass of the compact object of systems in quiescence by using single-epoch spectroscopy. We anticipate that this new correlation will give access to highly reddened black hole SXTs, which cannot be otherwise studied at optical wavelengths.
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accretion, accretion disks, black hole physics, stars: black holes, stars: neutron