KIC 8840638: A Newly Discovered Eclipsing Binary with δ Scuti–Type Oscillations
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Yang, Tao-Zhi; Zuo, Zhao-Yu; Liu, Jun-Hui; Jiang, Deng-Kai; Zhang, Zhi-Xiang; Tang, Qin-jie; García Hernández, AntonioEditorial
IOP Publishing
Date
2024-10-31Referencia bibliográfica
Yang, T. et. al. The Astrophysical Journal, 975:171 (13pp), 2024 Nov 10. [https://doi.org/10.3847/1538-4357/ad7841]
Sponsorship
Program of the National Natural Science Foundation of China (grant Nos. 12003020, 12473043); Shaanxi Fundamental Science Research Project for Mathematics and Physics (grant No. 23JSY015); Spanish State Research Agency (AEI) project PID2019- 107061GB-064; National Key R&D Program of China No. 2021YFA1600403; National Natural Science Foundation of China (Nos. 12473033,12073070, 12333008, 12288102, 12090040/3); Western Light Project of CAS (No. XBZG-ZDSYS-202117); ational Centre of Supernovae, Yunnan Key Laboratory (No. 202302AN360001); Yunnan Fundamental Research Project (No. 202201BC070003, 202401BC070007); Yunnan Revitalization Talent Support Program—Science & Technology Champion Project (No. 202305AB350003); Yunnan Ten Thousand Talents Plan Young & Elite Talents Project; China Manned Space Project with No. CMS-CSST-2021-A08Abstract
In this paper, we analyze the light variation of KIC 8840638 using high-precision time-series data from the Kepler
mission. The analysis reveals that this target is a new detached eclipsing binary system with a δ Scuti component,
rather than a single δ Scuti star as previously known. The frequency analysis of short-cadence data reveals 95
significant frequencies, most of which lie in a frequency range of 23−32 day−1. Among them, seven independent
frequencies are detected in the typical frequency range of δ Scuti stars, and they are identified as pressure modes. In
addition, a possible large separation value of Δν = 36.5 ± 0.1 μHz is also detected with the Fourier transform (FT)
and autocorrelation function (AC) analysis. The orbital frequency forb (= 0.320008 day−1) and its harmonics are
also detected directly in the frequency spectrum. The binary modelings derived from PHOEBE indicate that this
binary system is in detached configurations with a mass ratio of q 0.33 0.04
= -0.06
+ , an inclination angle of 40.19 2.84
3.96
-
+ °.
The derived parameters and binary evolutionary model suggest that the primary star is an object on the verge of
leaving the main sequence with a temperature of ∼7600 K, while the secondary appears to be a cool component
entering the giant branch with a temperature ∼3100 K lower than the primary. Moreover, this system may have
undergone a mass ratio reversal, where the more massive star is the gainer component and the less massive one is
the donor star.