English

Early-type Eclipsing Binaries with Intermediate Orbital Periods

Solar and Stellar Astrophysics 2015-09-16 v2

Abstract

We analyze 221 eclipsing binaries (EBs) in the Large Magellanic Cloud with B-type main-sequence (MS) primaries (M1M_1 \approx 4 - 14 M_{\odot}) and orbital periods PP = 20 - 50 days that were photometrically monitored by the Optical Gravitational Lensing Experiment. We utilize our three-stage automated pipeline to (1) classify all 221 EBs, (2) fit physical models to the light curves of 130 detached well-defined EBs from which unique parameters can be determined, and (3) recover the intrinsic binary statistics by correcting for selection effects. We uncover two statistically significant trends with age. First, younger EBs tend to reside in dustier environments with larger photometric extinctions, an empirical relation that can be implemented when modeling stellar populations. Second, younger EBs generally have large eccentricities. This demonstrates that massive binaries at moderate orbital periods are born with a Maxwellian "thermal" orbital velocity distribution, which indicates they formed via dynamical interactions. In addition, the age-eccentricity anticorrelation provides a direct constraint for tidal evolution in highly eccentric binaries containing hot MS stars with radiative envelopes. The intrinsic fraction of B-type MS stars with stellar companions qq = M2M_2/M1M_1 >> 0.2 and orbital periods PP = 20 - 50 days is (7 ±\pm 2)%. We find early-type binaries at PP = 20 - 50 days are weighted significantly toward small mass ratios qq \approx 0.2 - 0.3, which is different than the results from previous observations of closer binaries with PP << 20 days. This indicates that early-type binaries at slightly wider orbital separations have experienced substantially less coevolution and competitive accretion during their formation in the circumbinary disk.

Keywords

Cite

@article{arxiv.1501.03152,
  title  = {Early-type Eclipsing Binaries with Intermediate Orbital Periods},
  author = {Maxwell Moe and Rosanne Di Stefano},
  journal= {arXiv preprint arXiv:1501.03152},
  year   = {2015}
}

Comments

28 pages, 18 figures, 2 multi-page tables, accepted by ApJ

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