A massive AGB donor in Scutum X-1: Identification of the first Mira variable in an X-ray binary

Abstract

The symbiotic X-ray binary Sct X-1 was suggested as the first known neutron star accreting from a red supergiant companion. Although known for nearly 50 years, detailed characterization of the donor remains lacking, particularly due to the extremely high reddening towards the source (AV25 mag). Here, we present i) improved localization of the counterpart using Gaia and Chandra observations, ii) the first broadband infrared spectrum (≈1-5\,μm; R≈ 2000) obtained with SpeX on the NASA Infrared Telescope Facility and iii) J-band light curve from the Palomar Gattini-IR survey. The infrared spectrum is characterized by i) deep water absorption features (H2O index ≈ 40%), ii) strong TiO, VO and CO features, and iii) weak/absent CN lines. We show that these features are inconsistent with known red supergiants, but suggest a M8-9 III type O-rich Mira donor star. We report the discovery of large amplitude ( J≈3.5 mag) periodic photometric variability suggesting a pulsation period of 62136\,(systematic)8\,(statistical) days, which we use to constrain the donor to be a relatively luminous Mira (MK=-8.60.3 mag) at a distance of 3.6+0.8-0.7 kpc. Comparing these characteristics to recent models, we find the donor to be consistent with a ≈ 3-5 M star at an age of ≈ 0.1-0.3 Gyr. Together, we show that Sct X-1 was previously mis-classified as an evolved High Mass X-ray Binary; instead it is an intermediate mass system with the first confirmed Mira donor in an X-ray binary. We discuss the implications of Mira donors in symbiotic X-ray binaries, and highlight the potential of wide-field infrared time domain surveys and broadband infrared spectroscopy to unveil their demographics.