Photometric and Spectroscopic Studies of V582 Lyr and V1016 Oph

• Published in: The Astronomical journal Vol. 158; no. 5; pp. 193 - 204
• Main Authors: Cheng, Yao, Zhang, Li-yun, Han, Xianming L., Long, Liu, Lu, Hongpeng, Yue, Qiang, Jiang, Linyan
• Format: Journal Article
• Language: English
• Published: Madison The American Astronomical Society 01.11.2019; IOP Publishing
• Subjects: Astronomy; binaries: close; binaries: eclipsing; Chromospheric activity; H alpha line; Light curve; Mass transfer; Orbits; Photometry; Polls & surveys; Radial velocity; Spectra; stars: individual (V582 Lyr, V1016 Oph); Velocity curve
• ISSN: 0004-6256; 1538-3881
• DOI: 10.3847/1538-3881/ab42db

We present new CCD photometric light curves about two eclipsing binaries of V582 Lyr and V1016 Oph. Our observations were carried out by the SARA 91.4 cm telescope of America in 2016 and the 60 cm telescope of Chile in 2018. V582 Lyr's spectra type was classified as K5, and its radial velocity was determined using the LAMOST spectral survey. There are absorptions in the observed H line and excess emissions in the subtracted H line, which show weak chromospheric activity. We obtained the updated ephemeris information for V582 Lr and V1016 Oph, and found that their orbital periods are both decreasing. We concluded that the decreased rate is −0.474 ( 0.011) × 10−7 days yr−1 for V582 Lyr and 3.460 ( 0.014) × 10−7 days yr−1 for V1016 Oph. For V582 Lyr, the period variation was interpreted as a mass transfer from the secondary component to the primary one, and the corresponding rate is dM2/dt = −1.10 ( 0.03) × 10−7 M yr−1. For V1016 Oph, we explain it by transferring from the primary component to the secondary one, and the corresponding rate is dM1/dt = −2.69 ( 0.04) × 10−7 M yr−1. The photometric solution of V1016 Oph was obtained by analyzing the CCD photometry with the Wilson-Devinney program. We also obtained the orbital parameters of V1016 Oph by simultaneously analyzing our BVRI light curves and radial-velocity curve from the LAMOST low-resolution spectral survey. Finally, our orbital solution shows that they are contact eclipsing binaries with contact factors of 3.35 ( 0.08)% for V582 Lyr and 41.0 ( 0.1)% for V1016 Oph.