Orbital Solutions and Absolute Elements of the W UMa Binary MW Pavonis

Abstract

We present differential UBV photoelectric photometry obtained by Williamon of the short-period A-type W~UMa binary MW~Pav. With the Wilson-Devinney analysis program we obtained a simultaneous solution of these observations with the UBV photometry of Lapasset (1977,1980), the V measurements by the ASAS program, and the double-lined radial velocity measurements of Rucinski & Duerbeck (2006). Our solution indicates that MW~Pav is in an overcontact state, where both components exceed their critical Roche lobes. We derive masses of M1 = 1.514 0.063 \, M and M2 = 0.327 0.014 \, M, and equal-volume radii of R1 = 2.412 0.034 \, R and R2 = 1.277 0.019 \, R for the primary and secondary, respectively. The system is assumed to have a circular orbit and is seen at an inclination of 86.39 0.63. The effective temperature of the primary was held fixed at 6900~K, whereas the secondary's temperature was found to be 6969 10~K. The asymmetry of the light curves requires a large, single star spot on the smaller, less massive secondary component. A consistent base solution, with different spot characteristics for the Williamon, Lapasset, and ASAS data, was found. The modeled spot varied little during the 40-year range of photometric observations. The combined solution utilized a third light component and found that the period is changing at a rate of dP/dt~=~(6.50 0.19) × 10-10.