BVRcIc light curves, period and spectroscopic study of a low mass-ratio contact binary HV Aqr

New BVRcIc light curves of the short period binary system, HV Aqr, are presented. Photometric solutions were derived using the 2015 version of Wilson–Devinney code. The characteristics of complete eclipses showing in the light curves enable us to determine high-precision photometric parameters of th...

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Bibliographic Details
Published in:New astronomy 2023-05, Vol.100, Article 101989
Main Authors: Zubairi, Ahmed Waqas, Zhou, Xiao, Fernández Lajús, Eduardo, Zhu, Liying, Liao, Wenping, Soonthornthum, Boonrucksar, Zhang, Bin, Sarotsakulchai, Nopphadon
Format: Article
Language:English
Subjects:
Binaries
Eclipsing — binaries
Evolution — individual
HV Aqr
Spectroscopic — stellar
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Summary:New BVRcIc light curves of the short period binary system, HV Aqr, are presented. Photometric solutions were derived using the 2015 version of Wilson–Devinney code. The characteristics of complete eclipses showing in the light curves enable us to determine high-precision photometric parameters of the binary system. We have derived q=0.159 from our observations and q=0.149 from the TESS data. The degree of contact is f=56.21% and f=49.58% from our observations and TESS data, respectively. Based on all available times of light minimum, we analyzed the long-term period changes. A decrease rate of dP/dt=−1.29×10−7 days/yr was determined. The continuous period decrease can be explained by mass transfer from the primary component to the secondary and angular momentum loss via magnetic braking. A conservative mass transfer rate of 2.17×10−8M⊙yr−1 was derived. As the orbital period decreases, its contact of degree will become deeper and it will evolve into a single rapid-rotating star finally. •New light curves and orbital period of HV Aqr are investigated.•The spot activities on the surface of HV Aqr are discussed.•The absolute parameters of the two component stars in HV Aqr are determined.
ISSN:1384-1076
1384-1092
DOI:10.1016/j.newast.2022.101989