Eclipse-timing study of new hierarchical triple star candidates in the northern continuous viewing zone of TESS

Mitnyan, T.; Borkovits, T.; Czavalinga, D. R.; Rappaport, S. A.; Pál, A.; Powell, B. P.; Hajdu, T.

doi:10.1051/0004-6361/202348909

A&A

2024

DOI: 10.1051/0004-6361/202348909

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Eclipse-timing study of new hierarchical triple star candidates in the northern continuous viewing zone of TESS

T. Mitnyan,

T. Borkovits,

D. R. Czavalinga

et al.

Abstract: We compiled a list of more than 3500 eclipsing binaries located in and near the northern continuous viewing zone (NCVZ) of the TESS space telescope that have sufficient TESS photometry to search for additional hidden components in these systems. In addition to discovering their hierarchical nature, we also determined their orbital parameters and analyzed their distributions. We obtained the TESS light curves of all targets in an automated way by applying convolution-aided differential photometry on the TESS fu… Show more

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Cited by 4 publications

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High-resolution spectroscopy of detached eclipsing binaries during total eclipses

Hełminiak,

Olszewska,

Puciata-Mroczynska

et al. 2024

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We present results of high-resolution spectroscopic observations of detached eclipsing binaries (DEBs) with total eclipses, for which UVES spectra were obtained during the phase of totality. These observations serve as a key way to determine the age and initial metallicity of the systems and to verify evolutionary phases of their components and distances. With the additional, independent information concerning the effective temperature and metallicity of one of the components, we aim to estimate the precise ages of the studied binaries and show the usefulness of totality spectra. The second goal was to provide precise orbital and physical stellar parameters of the components of systems in question. Using the VLT/UVES, we obtained high-resolution spectra of 11 DEBs during their total-eclipse phase. Atmospheric parameters of then-visible (larger) components were obtained with With additional spectroscopy from the Comprehensive Research with \'Echelles on the Most interesting Eclipsing binaries ( project, public archives, and literature, we obtained radial-velocity (RV) measurements, from which orbital parameters were calculated. Photometric time-series observations from TESS and ASAS were modelled with the JKTEBOP code, and, combined with RV-based results, they allowed us to obtain physical parameters for nine double-lined systems from our sample. All the available data were used to constrain the ages with our own approach, utilising MESA isochrones. Reddening-free, isochrone-based distances were also estimated and confronted with Gaia Data Release 3 (GDR3) results. We show that single spectroscopic observations taken during a total eclipse can break the age-metallicity degeneracy and allow for the precise determination of the age of a DEB. With high-quality spectroscopic and photometric data, we are able to reach a 5-10<!PCT!> level of uncertainty (e.g. $724^ $ Myr). Even for single-lined DEBs, where absolute masses are not possible to obtain, the spectroscopic analysis of one of the components allows one to put strong constraints on the properties of both stars. For some cases, we noted inconsistencies between isochrone-based and GDR3 distances. For one binary, which could not be fitted with a single isochrone (RZ Eri), we suggest a new explanation.

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High-resolution spectroscopy of detached eclipsing binaries during total eclipses

Hełminiak,

Olszewska,

Puciata-Mroczynska

et al. 2024

A&A

View full text Add to dashboard Cite

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Spectroscopy of eclipsing compact hierarchical triples

Moharana,

Hełminiak,

Marcadon

et al. 2024

A&A

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Eclipsing compact hierarchical triples (CHTs) are systems in which a tertiary star orbits an eclipsing binary (EB) in an orbit of fewer than 1000 days. In a CHT, all three stars exist in a space that is less than 5 AU in radius. A low-mass CHT is an interesting case through which we can understand the formation of multiple stars and planets at such small scales. In this study, we combine spectroscopy and photometry to estimate the orbital, stellar, and atmospheric parameters of stars in a sample of CHTs. Using the complete set of parameters, we aim to constrain the metallicity and age of the systems. We used time-series spectroscopy to obtain radial velocities (RVs) and disentangled spectra. Using RV modelling, EB light curve modelling, and spectral analysis, we estimated the metallicities and temperatures. Using isochrone fitting, we constrained the ages of the system. We then combined observations of masses, outer eccentricities ($e_2$), orbital periods, and age estimates of the systems from the literature. We compared the distributions of $e_2$, and the tertiary mass ratio, $q_3 = M_3/(M_1+M_2)$, for three different metallicity ranges and two age ranges. We have estimated the masses, radii, temperatures, metallicities, and ages of 12 stars in four CHTs. The CHT CD-32 6459 shows signs of von Zeipel-Lidov-Kozai oscillations, while CD-62 1257 can evolve to form a triple common envelope. The rest of the CHTs are old and have an M-dwarf tertiary. We find that the $q_3$ distribution for CHTs with sub-solar metallicity has a uniform distribution but the systems with solar and above-solar metallicity peak between 0.5 and 1. When dividing them according to their ages, we find the $q_3$ of old systems to be around 0.5. The eccentricity, $e_2$, favours a value of around 0.3 irrespective of metallicity or age. The distributions of $q_3$ and $e_2$ resemble the distributions of the mass ratio and eccentricity of close field binaries.

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Searching for compact hierarchical triple system candidates in astrometric binaries and accelerated solutions

Bashi,

Tokovinin

2024

A&A

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Compact hierarchical triple (CHT) systems, where a tertiary component orbits an inner binary, provide critical insights into stellar formation and evolution. Despite their importance, the detection of such systems, especially compact ones, remains challenging due to the complexity of their orbital dynamics and the limitations of traditional observational methods. This study aims to identify new CHT star systems among \ astrometric binaries and accelerated solutions by analysing the radial velocity (RV) amplitude of these systems, thereby improving our understanding of stellar hierarchies. We selected a sample of bright astrometric binaries and accelerated solutions from the DR3 Non-Single Stars catalogue. The RV peak-to-peak amplitude was used as an estimator, and we applied a new method to detect potential triple systems by comparing the RV-based semi-amplitude with the astrometric semi-amplitude. We used available binary and triple star catalogues to identify and validate candidates, with a subset confirmed through further examination of the RV and astrometric data. Our analysis resulted in the discovery of $956$ CHT candidates among the orbital sources as well as another $3,115$ probable close binary sources in stars with accelerated solutions. Exploring the inclination, orbital period, and eccentricity of the outer companion in these CHT systems provides strong evidence of mutual orbit alignment, as well as a preference towards moderate outer eccentricities. Our novel approach has proven effective in identifying potential triple systems, thereby increasing their number in the catalogues. Our findings emphasise the importance of combined astrometric and RV data analysis in the study of multiple star systems.

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Eclipse-timing study of new hierarchical triple star candidates in the northern continuous viewing zone of TESS

Cited by 4 publications

References 49 publications

High-resolution spectroscopy of detached eclipsing binaries during total eclipses

High-resolution spectroscopy of detached eclipsing binaries during total eclipses

Spectroscopy of eclipsing compact hierarchical triples

Searching for compact hierarchical triple system candidates in astrometric binaries and accelerated solutions

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