Revised physical elements of the astrophysically important O9.5+O9.5V eclipsing binary system Y Cygni

Harmanec, P.; Holmgren, D. E.; Wolf, M.; Božić, H.; Guinan, E. F.; Kang, Yong; Mayer, P.; McCook, G. P.; Nemravová, J.; Yang, S.; Šlechta, M.; Ruždjak, Domagoj; Sudar, D.; Svoboda, Petr

doi:10.1051/0004-6361/201323230

Cited by 16 publications

(12 citation statements)

References 30 publications

(49 reference statements)

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“…Article number, page 5 of 13 A&A proofs: manuscript no. bin_ohp The mass and radius of the primary component of Y Cyg obtained by Burkholder et al (1997), Harmanec et al (2014) and Simon et al (1994) are consistent with our values. On the contrary, we find a less massive and more compact secondary.…”

Section: Comparison To Previous Analysissupporting

confidence: 93%

Properties of six short-period massive binaries: A study of the effects of binarity on surface chemical abundances

Martins

Mahy

Hervé

2017

A&A

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Context. A significant fraction of massive stars are found in multiple systems. The effect of binarity on stellar evolution is poorly constrained. In particular, the role of tides and mass transfer on surface chemical abundances is not constrained observationally. Aims. The aim of this study is to investigate the effect of binarity on the stellar properties and surface abundances of massive binaries. Methods. We perform a spectroscopic analysis of six Galactic massive binaries. The spectra of individual components are obtained from a spectral disentangling method and are subsequently analyzed by means of atmosphere models. The stellar parameters and CNO surface abundances are determined.Results. Most systems are made of main-sequence stars. Three systems are detached, two are in contact and no information is available for the sixth system. For eleven out of the twelve stars studied the surface abundances are only mildly affected by stellar evolution and mixing. They are not different from those of single stars, within the uncertainties. The secondary of XZ Cep is strongly chemically enriched. Considering previous determinations of surface abundance in massive binary systems suggests that the effect of tides on chemical mixing is limited, whereas mass transfer and removal of outer layers of the mass donor leads to the appearance of chemically processed material at the surface, although this is not systematic. The evolutionary masses of the components of our six systems are on average 16.5% higher than the dynamical masses. Some systems seem to have reached synchronization, while others may still be in a transitory phase. ⋆ Based on observations made with the SOPHIE spectrograph on the 1.93-m telescope at Observatoire de Haute-Provence (OHP,

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Section: Comparison To Previous Analysissupporting

confidence: 93%

Properties of six short-period massive binaries: A study of the effects of binarity on surface chemical abundances

Martins

Mahy

Hervé

2017

A&A

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“…SB2E. This eccentric short-period binary has a rapid apsidal motion (Harmanec et al 2014) and was classified by Burkholder et al (1997) as O9 V + O9.5 V. In GOSSS I we obtained a spectral classification of O9.5 IV + O9.5 IV, which we reproduce here using a LiLiMaRlin epoch. The object has no entry in the WDS catalog and appears single in our AstraLux images.…”

Section: Cygnusmentioning

confidence: 53%

MONOS: Multiplicity Of Northern O-type Spectroscopic systems

Apellániz

Paez

Negueruela

et al. 2019

A&A

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Context. Multiplicity in massive stars is key to understanding the chemical and dynamical evolution of galaxies. Among massive stars, those of O type play a crucial role due to their high masses and short lifetimes. Aims. MONOS (Multiplicity Of Northern O-type Spectroscopic systems) is a project designed to collect information and study O-type spectroscopic binaries with δ > −20 • . In this first paper we describe the sample and provide spectral classifications and additional information for objects with previous spectroscopic and/or eclipsing binary orbits. In future papers we will test the validity of previous solutions and calculate new spectroscopic orbits. Methods. The spectra in this paper have two sources: the Galactic O-Star Spectroscopic Survey (GOSSS), a project that obtains blueviolet R ∼ 2500 spectroscopy of thousands of massive stars, and LiLiMaRlin, a library of libraries of high-resolution spectroscopy of massive stars obtained from four different surveys (CAFÉ-BEANS, OWN, IACOB, and NoMaDS) and additional data from our own observing programs and public archives. We have also used lucky images obtained with AstraLux. Results. We present homogeneous spectral classifications for 92 O-type spectroscopic multiple systems and ten optical companions, many of them original. We discuss the visual multiplicity of each system with the support of AstraLux images and additional sources. For eleven O-type objects and for six B-type objects we present their first GOSSS spectral classifications. For two known eclipsing binaries we detect double absorption lines (SB2) or a single moving line (SB1) for the first time, to which we add a third system reported by us recently. For two previous SB1 systems we detect their SB2 nature for the first time and give their first separate spectral classifications, something we have also done for a third object just recently identified as a SB2. We also detect nine new astrometric companions and provide updated information on several others. We emphasize the results for two stars: for σ Ori AaAbB we provide spectral classifications for the three components with a single observation for the first time thanks to a lucky spectroscopy observation obtained close to the Aa,Ab periastron and for θ 1 Ori CaCb we add it to the class of Galactic Of?p stars, raising the number of its members to six. Our sample of O-type spectroscopic binaries contains more triple-or higher-order systems than double systems.

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“…Its apsidal motion is much slower, 0.1314 rad yr −1 (see, e.g. Harmanec et al 2014, and references therein); there are no obvious reasons for such a huge difference between those two binaries. Indeed, although our spectra now cover a longer time interval than those used by Trepl et al (2012), we were unable to find any evidence for apsidal motion.…”

Section: Hd 164438mentioning

confidence: 99%

Physical properties of seven binary and higher-order multiple OB systems

Mayer

Harmanec

Chini

et al. 2017

A&A

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Analyses of multi-epoch, high-resolution (R ∼ 50000) optical spectra of seven early-type systems provided various important new insights with respect to their multiplicity. For HD 93146 A, which was hitherto assumed to be SB1, lines of a secondary component could be discerned. HD 123056 turns out to be a multiple system consisting of a high-mass component A (≈ O8.5) displaying a broad He ii 5411 Å feature with variable radial velocity, and of an inner pair B (≈ B0) with double He i lines. The binary HD 164816 was revisited and some of its system parameters were improved. In particular, we determined its systemic velocity to be −7 km s −1 , which coincides with the radial velocity of the cluster NGC 6530. This fact, together with its distance, suggests the cluster membership of HD 164816. The OB system HD 318015 (V1082 Sco) belongs to the rare class of eclipsing binaries with a supergiant primary (B0.5/0.7). Our combined orbital and light-curve analysis suggests that the secondary resembles an O9.5 III star. Our results for a limited sample corroborate the findings that many O stars are actually massive multiple systems.

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Revised physical elements of the astrophysically important O9.5+O9.5V eclipsing binary system Y Cygni

Cited by 16 publications

References 30 publications

Properties of six short-period massive binaries: A study of the effects of binarity on surface chemical abundances

Properties of six short-period massive binaries: A study of the effects of binarity on surface chemical abundances

MONOS: Multiplicity Of Northern O-type Spectroscopic systems

Physical properties of seven binary and higher-order multiple OB systems

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