The blue straggler V106 in NGC 6791: a prototype progenitor of old single giants masquerading as young
Ryde, N.; Grundahl, F.; Stello, D.; Miglio, A.; Platais, I.; Brogaard, K.; Bruntt, H.; Frandsen, S.; Feiden, G. A.; Shetrone, M.; Izzard, R. G.; VandenBerg, D. A.; Tauris, T. M.; Arentoft, T.; Meibom, S.; Christiansen, S. M.; Sandquist, E. L.; Jessen-Hansen, J.; Orosz, J. A.; Mathieu, R.; Geller, A.
Denmark, United Kingdom, Germany, United States, Canada, Sweden, Australia
Abstract
We determine the properties of the binary star V106 in the old open cluster NGC 6791 . We identify the system to be a blue straggler cluster member by using a combination of ground-based and Kepler photometry and multi-epoch spectroscopy. The properties of the primary component are found to be M_p∼ 1.67 M_{⊙ }, more massive than the cluster turn-off, with R_p∼ 1.91 R_{⊙ } and Teff = 7110 ± 100 K. The secondary component is highly oversized and overluminous for its low mass with M_s∼ 0.182 M_{⊙ }, R_s∼ 0.864 R_{⊙ }, and Teff = 6875 ± 200 K. We identify this secondary star as a bloated (proto) extremely low-mass helium white dwarf. These properties of V106 suggest that it represents a typical Algol-paradox system and that it evolved through a mass-transfer phase, which provides insight into its past evolution. We present a detailed binary stellar evolution model for the formation of V106 using the MESA code and find that the mass-transfer phase only ceased about 40 Myr ago. Due to the short orbital period (P = 1.4463 d), another mass-transfer phase is unavoidable once the current primary star evolves towards the red giant phase. We argue that V106 will evolve through a common-envelope phase within the next 100 Myr and merge to become a single overmassive giant. The high mass will make it appear young for its true age, which is revealed by the cluster properties. Therefore, V106 is potentially a prototype progenitor of old field giants masquerading as young.