BRITE-Constellation photometry of 5 Orionis, an ellipsoidal SPB variable

Abstract

Results of an analysis of the BRITE-Constellation photometry of the SB1 system and ellipsoidal variable π5 Ori (B2\,III) are presented. In addition to the orbital light-variation, which can be represented as a five-term Fourier cosine series with the frequencies f orb, 2f orb, 3f orb, 4f orb and 6f orb, where f orb is the system's orbital frequency, the star shows five low-amplitude but highly-significant sinusoidal variations with frequencies fi (i =2,..,5,7) in the range from 0.16 to 0.92~d-1. With an accuracy better than 1σ, the latter frequencies obey the following relations: f2-f4 = 2f orb, f7 - f3 = 2f orb, f5 = f3 - f4 = f7 - f2. We interpret the first two relations as evidence that two high-order = 1, m = 0 gravity modes are self-excited in the system's tidally distorted primary component. The star is thus an ellipsoidal SPB variable. The last relations arise from the existence of the first-order differential combination term between the two modes. Fundamental parameters, derived from photometric data in the literature and the Hipparcos\/ parallax, indicate that the primary component is close to the terminal stages of its main sequence (MS) evolution. Extensive Wilson-Devinney modeling leads to the conclusion that best fits of the theoretical to observed light-curves are obtained for the effective temperature and mass consistent with the primary's position in the HR diagram and suggests that the secondary is in an early MS evolutionary stage.