BU Canis Minoris - the most compact known flat doubly eclipsing quadruple system

BU Canis Minoris - the most compact known flat doubly eclipsing quadruple system

We have found that the 2+2 quadruple star system BU CMi is currently the most compact quadruple system known, with an extremely short outer period of only 121 days. The previous record holder was TIC 219006972 (Kostov et al. 2023), with a period of 168 days. The quadruple nature of BU CMi was establ...

Teljes leírás

Elmentve itt :
Bibliográfiai részletek
Szerzők: Pribulla Theodor
Borkovits Tamás
Jayaraman Rahul
Rappaport Saul
Mitnyan Tibor
Zasche Petr
Komžík Richard
Pál András
Uhlař Robert
Mašek Martin
Henzl Zbyněk
Bíró Imre Barna
Csányi István
Stuik Remko
Kristiansen Martti H.
Schwengeler Hans M.
Gagliano Robert
Jacobs Thomas L.
Omohundro Mark
Kostov Veselin
Powell Brian P.
Terentev Ivan A.
Vanderburg Andrew
LaCourse Daryll
Rodriguez Joseph E.
Bakos Gáspár
Csubry Zoltán
Hartman Joel
Dokumentumtípus: Cikk
Megjelent: 2023
Sorozat:MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 524 No. 3
Tárgyszavak:
Csillagászat
doi:10.1093/mnras/stad2015

mtmt:34061567
Online Access:http://publicatio.bibl.u-szeged.hu/39097
Leíró adatok
Tartalmi kivonat:We have found that the 2+2 quadruple star system BU CMi is currently the most compact quadruple system known, with an extremely short outer period of only 121 days. The previous record holder was TIC 219006972 (Kostov et al. 2023), with a period of 168 days. The quadruple nature of BU CMi was established by Volkov et al. (2021), but they misidentified the outer period as 6.6 years. BU CMi contains two eclipsing binaries (EBs), each with a period near 3 days, and a substantial eccentricity of ≃ 0.22. All four stars are within ~0.1 M⊙ of 2.4 M⊙. Both binaries exhibit dynamically driven apsidal motion with fairly short apsidal periods of ≃ 30 years, thanks to the short outer orbital period. The outer period of 121 days is found both from the dynamical perturbations, with this period imprinted on the eclipse timing variations (ETV) curve of each EB by the other binary, and by modeling the complex line profiles in a collection of spectra. We find that the three orbital planes are all mutually aligned to within 1 degree, but the overall system has an inclination angle near 83.5○. We utilize a complex spectro-photodynamical analysis to compute and tabulate all the interesting stellar and orbital parameters of the system. Finally, we also find an unexpected dynamical perturbation on a timescale of several years whose origin we explore. This latter effect was misinterpreted by Volkov et al. (2021) and led them to conclude that the outer period was 6.6 years rather than the 121 days that we establish here.
Terjedelem/Fizikai jellemzők:4220-4238
ISSN:0035-8711

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