CZ Aqr: An Oscillating Eclipsing Algol-type System Composed of a δ Sct Primary Star and a Subgiant Star in a Quadruple System

CZ Aqr: An Oscillating Eclipsing Algol-type System Composed of a δ Sct Primary Star and a Subgiant Star in a Quadruple System

Abstract Eclipsing Algol-type systems containing a δ Scuti (hereafter δ Sct) star enable precise determination of physical parameters and the investigation of stellar internal structure and evolution. We present the absolute parameters of CZ Aquarius (hereafter CZ Aqr) based on TESS data. CZ Aqr has...

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Bibliographic Details
Published in:The Astrophysical journal Vol. 975; no. 2; pp. 249 - 258
Main Authors: Zeng, Qi-Huan, Liao, Wen-Ping, Qian, Sheng-Bang, Li, Lin-Jia, Li, Ping, Deng, Zhao-Long
Format: Journal Article
Language:English
Published: Philadelphia The American Astronomical Society 01-11-2024
IOP Publishing
Subjects:
Binary stars
Celestial mechanics
Delta Scuti variable stars
Light curve
Orbits
Parabolas
Parameters
Physical properties
Stars
Stellar winds
Subgiant stars
Travel time
Wind effects
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Summary:Abstract Eclipsing Algol-type systems containing a δ Scuti (hereafter δ Sct) star enable precise determination of physical parameters and the investigation of stellar internal structure and evolution. We present the absolute parameters of CZ Aquarius (hereafter CZ Aqr) based on TESS data. CZ Aqr has an orbital period of 0.86275209 day, a mass ratio of 0.489 (6), and the secondary component nearly fills its Roche lobe. O − C analysis reveals a downward parabolic trend and a cyclical variation with a period of 88.2 yr. The downward parabola suggests a long-term decrease in the orbital period with P ̇ = −3.09 × 10 −8 days yr −1 . The mass loss rate is estimated to be 4.54 × 10 −9 M ⊙ yr −1 , which is possibly due to magnetic stellar wind or a hot spot. The cyclical variation might be caused by the light travel time effect via the presence of a third body with a minimum mass of M 3 min = 0.312 (21) M ⊙ . Additionally, there are two possible celestial bodies in a 2:7 resonance orbit around CZ Aqr. The asymmetric light curve is explained by adding a hot spot on the surface of the primary star. After removing the binary model, 26 frequencies were extracted from TESS data. Two radial modes were newly identified among three possible independent frequencies. Our results show that the eclipsing Algol-type system is composed of a δ Sct primary star and a subgiant star in a quadruple system.
Bibliography:AAS57082
Stars and Stellar Physics
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/ad83b2