2M17091769+3127589: a mass-transfer binary with an extreme mass ratio

Abstract

We present the orbital solution of a peculiar double-lined spectroscopic and eclipsing binary system, 2M17091769+3127589. This solution was obtained by a simultaneous fit of both APOGEE radial velocities and TESS and ASAS-SN light curves to determine masses and radii. This system consists of an M=0.256+0.010-0.006 M, R=3.961+0.049-0.032 R red giant and a hotter M=1.518 +0.057-0.031 M, R=2.608+0.034-0.321 R subgiant. Modelling with the MESA evolutionary codes indicates that the system likely formed 5.26 Gyrs ago, with a M=1.2 M primary that is now the system's red giant and a M=1.11 M secondary that is now a more massive subgiant. Due to Roche-lobe overflow as the primary ascends the red giant branch, the more evolved "primary" (i.e., originally the more massive star of the pair) is now only one-sixth as massive as the "secondary". Such a difference between the initial and the current mass ratio is one of the most extreme detected so far. Evolutionary modelling suggests the system is still engaged in mass transfer, at a rate of M 10-9 M yr-1, and it provides an example of a less evolved precursor to some of the systems that consist of white dwarfs and blue stragglers.