A Maximum Likelihood Method for Identifying the Components of Eclipsing Binary Stars Jonathan Devor and David Charbonneau Harvard-Smithsonian Center for.

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A Maximum Likelihood Method for Identifying the Components of Eclipsing Binary Stars Jonathan Devor and David Charbonneau Harvard-Smithsonian Center for Astrophysics The Method for Eclipsing Component Identification (MECI) is an automated method for assigning the most likely absolute physical parameters to the components of an eclipsing binary (EB). MECI is unique in that it requires only the photometric light curve and combined colors of an eclipsing binary star system. This method enables us to systematically analyze large photometric time-series survey datasets (e.g. OGLE, MACHO, TrES, HAT, and many others). It also enables the analysis of binaries that are faint due to their large distance or low intrinsic luminosity, for which obtaining multi-epoch spectroscopy would be difficult. We built an automated implementation of this method using published theoretical isochrones and limb-darkening coefficients, and publicly released its source code*. We present test results of this implementation, using both simulated and real datasets. We show that for photometry with a typical precision of 0.01 magnitude, MECI is able to achieve less than 5% mass estimation errors, 90% of the time. We intend to use MECI to find rare and interesting systems, specifically low-mass binaries, for which the mass-radius relation is poorly understood. * The source code and running examples of MECI can be downloaded from: Above: The MECI flow diagram, showing the derivation of the parameters needed to model an EB light curve, starting from the extracted light curve features and the assumed binary pairing. Above: The observed WW Camelopardalis light curve (Lacy et al. 2002), compared with the simulated light curves of 5 EB pairings. Masses are in solar units. Above-right: The phased light curves, and the DEBiL model fit (Devor 2004, 2005 ; solid line) with its residuals, for the eclipsing binary systems: (a) FS Monocerotis; (b) WW Camelopardalis; (c) BP Vulpeculae. The light curves were taken, respectively, from Lacy et al. (2000, 2002, 2003). Right: The corresponding MECI likelihood score contours. The published solution for each binary system (Lacy et al. 2000, 2002, 2003), is marked by a white asterisk. Alonso, R., et al. 2004, ApJ, 613, L153 Devor, J. 2004, American Astronomical Society Meeting Abstracts, 205 Devor, J. 2005, ApJ, 628, 411 Left: Mass estimates (in solar units) and best-fit model curves of 5 light curves from the Trans-Atlantic Exoplanet Survey (TrES ; Alonso et al. 2004) obtained using MECI. TrES employs a network of 3 automated telescopes to survey 6° x 6° fields-of-view, in search of transiting extrasolar planets. As a by-product, the survey has generated high-quality light curves of several hundred thousand stars, which we have analyzed with MECI. Above: The error distributions of within 8 simulation sets. The fractional mass errors of the two EB components were combined in a quadrature sum. Each set contains 2500 simulated 1000-point light curves, with injected Gaussian noise. Lacy, C. H. S., et al. 2000, AJ, 119, 1389 Lacy, C. H. S., Torres, G., Claret, A., & Sabby, J. A. 2002, AJ, 123, 1013 Lacy, C. H. S., Torres, G., Claret, A., & Sabby, J. A. 2003, AJ, 126, 1905 References