English

Exploring a Stream of Highly-Eccentric Binaries with Kepler

Solar and Stellar Astrophysics 2012-12-27 v1

Abstract

With 16-month Kepler data, 14 long-period (40 d - 265 d) eclipsing binaries on highly eccentric orbits (minimum e between 0.5 and 0.85) are recognized from their closely separated primary and secondary eclipses (\Delta t_I,II = 3 d - 10 d). These systems confirm the existence of a previously hinted binary population situated near a constant angular momentum track at P(1-e^2)^(3/2) ~ 15 d, close to the tidal circularization period P_circ. They may be presently migrating due to tidal dissipation and form a steady-state stream (~1% of stars) feeding the close-binary population (few percent of stars). If so, future Kepler data releases will reveal a growing number (dozens) of systems at longer periods, following dN/dlgP \propto P^(1/3) with increasing eccentricities reaching e -> 0.98 for P -> 1000d. Radial-velocity follow up of long-period eclipsing binaries with no secondary eclipses could offer a significantly larger sample. Orders of magnitude more (hundreds) may reveal their presence from periodic "eccentricity pulses", such as tidal ellipsoidal variations, near pericenter passages. Several new few-day-long eccentricity-pulse candidates with long period (P = 25 d - 80 d) are reported.

Keywords

Cite

@article{arxiv.1201.4399,
  title  = {Exploring a Stream of Highly-Eccentric Binaries with Kepler},
  author = {Subo Dong and Boaz Katz and Aristotle Socrates},
  journal= {arXiv preprint arXiv:1201.4399},
  year   = {2012}
}
R2 v1 2026-06-21T20:07:46.218Z