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Rapid mass transfer between the twin components in the hierarchical triple system GK Cep

EG ZhaoYunnan Observatories, Chinese Academy of Sciences (CAS), PO Box 110, 650216 Kunming, ChinaS-B QianSchool of Physics and Astronomy, Yunnan University, 650091 Kunming, P. R. ChinaX. ZhouYunnan Observatories, Chinese Academy of Sciences (CAS), PO Box 110, 650216 Kunming, ChinaL-J LiYunnan Observatories, Chinese Academy of Sciences (CAS), PO Box 110, 650216 Kunming, ChinaL-Y ZhuUniversity of Chinese Academy of SciencesLi ZhangSchool of Physics and Astronomy, Yunnan University, 650091 Kunming, P. R. China
2021en
ABI

Abstract

ABSTRACT GK Cep is an eclipsing binary that contains two A-type components with an orbital period of 0.936 d. The high mass ratio and the contact or near-contact configuration make it a key target to understand binary evolution. However, the physical properties and evolutionary state are still unknown. Here we present the UV light curve obtained by using the lunar-based ultraviolet telescope (LUT) and several eclipse times obtained with the Sino-Thai 70-cm telescope and the 1.0-m telescope at Yunnan Observatories. Analysis of the LUT light curve suggests that GK Cep is a near-contact semidetached system where the slightly less massive component is the hotter one that is filling the critical Roche lobe. Meanwhile, a hotspot is found on the neck of the more massive but cooler component. By using all available times for the light minimum, it is detected that the O–C curve shows a cyclic oscillation while it undergoes an upward parabolic change. The increase of the orbital period, the high mass ratio, the semidetached configuration with a lobe-filling less massive component, and the presence of a hotspot on the more massive component all suggest that GK Cep is in a key evolutionary state just after the shortest-period evolutionary stage during the rapid mass transfer. The cyclic change in the O–C curve reveals that GK Cep contains a solar-type stellar companion in a triply hierarchical system that is in agreement with the spectroscopic result. The third body contributes about 2.6 per cent to the total light of the triple system.

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