Title: The Effect of Star Spots on Accurate Radius Determination of the Low Mass Double-lined Eclipsing Binary GU Boo Authors: G. Windmiller, J. A. Orosz, P. B. Etzel
GU Boo is one of only a relatively small number of well studied double-lined eclipsing binaries that contain low-mass stars. L'opez-Morales & Ribas (2005, hereafter LR05) present a comprehensive analysis of multi-colour light and radial velocity curves for this system. The GU Boo light curves presented in LR05 had substantial asymmetries, which were attributed to large spots. In spite of the asymmetry LR05 derived masses and radii accurate to about 2%. We obtained additional photometry of GU Boo using both a CCD and a single-channel photometer and modelled the light curves with the ELC software to determine if the large spots in the light curves give rise to systematic errors at the few percent level. We also modelled the original light curves from LR05 using models with and without spots. We derived a radius of the primary of 0.6329 ±0.0026 Solar-Radii, 0.6413 ±0.0049 SR, and 0.6373 ±0.0029 SR from the CCD, photoelectric, and LR05 data, respectively. Each of these measurements agrees with the value reported by LR05 (R1=0.623 ±0.016 SR) at the level of about 2%. In addition, the spread in these values is about 1-2% from the mean. For the secondary, we derive radii of 0.6074 ±0.0035 SR, 0.5944 ±0.0069 SR, and 0.5976 ±0.0059 SR from the three respective data sets. The LR05 value is R2=0.620 ±0.020 SR, which is about 2-3% larger than each of the three values we found. The spread in these values is about 2% from the mean. The systematic difference between our three determinations of the secondary radius and that of LR05 might be attributed to differences in the modelling process and codes used. Our own fits suggest that, for GU Boo at least, using accurate spot modelling of a single set of multicolour light curves results in radii determinations accurate at the 2% level.
Title: The Spitzer 24-micron Photometric Light Curve of the Eclipsing M-dwarf Binary GU Bootis Authors: Kaspar von Braun (1), Gerard T. van Belle (1), David Ciardi (1), Mercedes Lopez-Morales (2), D. W. Hoard (3), Stefanie Wachter (3) ((1) Michelson Science Center, Caltech (2) Department of Terrestrial Magnetism, Carnegie Institution of Washington (3) Spitzer Science Centre, Caltech)
We present a carefully controlled set of Spitzer 24 \micron MIPS time series observations of the low mass eclipsing binary star GU Bootis (GU Boo). Our data cover three secondary eclipses of the system: two consecutive events and an additional eclipse six weeks later. The study's main purpose is the long wavelength characterization of GU Boo's light curve, independent of limb darkening and less sensitive to surface features such as spots. Its analysis allows for independent verification of the results of optical studies of GU Boo. Our mid-infrared results show good agreement with previously obtained system parameters. In addition, the analysis of light curves of other objects in the field of view serves to characterise the photometric stability and repeatability of Spitzer's MIPS-24 at flux densities between approximately 300--2,000\muJy. We find that the light curve root mean square about the median level falls into the 1--4% range for flux densities higher than 1 mJy.
A new low-mass eclipsing binary, has been found using data from the ROTSE-I database. The binary, GU Boo, has an orbital period of 0.488728 +/-0.000002 days, and estimated individual masses of 0.610 +/- 0.007 solar masses and 0.599 +/-0.006 solar masses, and very similar to the eclipsing binary YY Gem. Position (J2000): RA = 15:21:55.16s, Dec +33:56:04.1