Assessment of evolutionary status of eclipsing binaries using light-curve parameters and spectral classification

Avvakumova, E. A.; Malkov, O. Yu.

doi:10.1093/mnras/stu1572

Cited by 17 publications

(10 citation statements)

References 49 publications

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“…The latter ones were drawn from the Catalogue of Eclipsing Variables, CEV, compiled by Malkov et al (2006) mainly from the General Catalogue of Variable Stars, GCVS (Samus et al 2013), upgraded by Avvakumova et al (2013), and uploaded into the Binary stars database, BDB (Kaygorodov et al 2012;Kovaleva et al 2015). The results of our simulations were tested against a CEV-based sample of 415 Algols with original classification and 1726 systems classified as Algols using the procedure suggested by and substantially modified by Avvakumova & Malkov (2014), altogether 2141 systems. Figure 2 illustrates the brightness (magnitude at maximum) distribution of catalogued Algols.…”

Section: Observational Datamentioning

confidence: 99%

Hidden Population of Algols

et al. 2016

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Abstract. We present the results of Monte Carlo simulation aiming to estimate the frequency of semi-detached Algol-type binaries among the stars observed as single. When an account is taken of various detection biases (mostly due to inclination of orbits), the fraction of Algols among the Galactic disk stars appears to be 0.1-0.2%. However, this number should be regarded as a lower limit only, since there are still unaccounted-for selection effects and other types of photometrically unresolved binaries. Hidden binarity appears to be an important phenomenon that should be taken into account when considering stellar statistics and constructing the fundamental relations between stellar parameters.

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Section: Observational Datamentioning

confidence: 99%

Hidden Population of Algols

et al. 2016

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“…However, in our results, the suspected SA systems are distributed similar to the confirmed SA systems and they are not the case for the SH systems. We conclude that the classification procedure developed by Avvakumova & Malkov () did not work properly for the SH systems. So we excluded suspected SH systems from our further consideration of results, which were shown in Figures .…”

Section: Resultsmentioning

confidence: 75%

“…As we discussed the orbital and stellar parameters of Algol‐type eclipsing systems for both confirmed and suspected systems in sections 2.1.1–2.1.3, we plot the semimajor axis and mass ratio distribution of both confirmed SA/SH and suspected SA from CEV and Svechnikov & Kuznetsova (), which are shown in Figures and . Hence, we compare our results with the statistical analysis of Malkov et al () and Avvakumova & Malkov (). The semimajor axes that we have calculated from the CEV using Equation and directly from the catalog of Svechnikov & Kuznetsova () are almost the same, while the mass ratios of these systems are q < 0:8, which implies that the mass transfer in these systems is stable.…”

Section: Statistical Analysis Of Algol‐type Eclipsing Systemsmentioning

confidence: 63%

“…The largest list of eclipsing binaries with available classification, CEV, was compiled by Malkov et al () and Malkov et al () mainly from the General Catalog of Variable Stars (GCVS; Samus et al ) and upgraded by Avvakumova et al () and Malkov & Avvakumova (). Some CEV systems have classifiers taken from the literature (hereafter confirmed systems), and some others were classified by Avvakumova & Malkov (), who developed a procedure for the classification of eclipsing binaries from their light curve parameters and spectral type, tested it, and applied it to initially nonclassified CEV systems (hereafter suspected systems).…”

Section: Algol‐type Eclipsing Binary Starsmentioning

confidence: 99%

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Statistical analysis of Algol‐type eclipsing binaries with stable mass transfer

Negu

Tessema

2018

Astron Nachr

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In this study, we have investigated the stellar parameters of Algol-type eclipsing binaries in the range of primary and secondary masses between 0.2 and 8 M ⊙ , which were obtained from the catalog of approximate photometric and absolute elements of eclipsing variable stars. We examined those parameters for classical Algols and hot semidetached binaries. We have made a statistical analysis of Algol-type eclipsing binaries' stellar parameters and constructed the mass-luminosity and mass-radius relations for the primary and secondary components of classical Algols and hot semidetached binaries.

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“…Based on radial velocity measurements, find a possible periodicity of ∼9 d that could be associated to binarity. Avvakumova & Malkov (2014) evaluate this system to be a detached main sequence binary, based on its well-established membership in the NGC 2615 cluster (e.g. Landstreet et al 2007).…”

Section: Notes On Individual Starsmentioning

confidence: 99%

Magnetic OB[A] Stars with TESS: probing their Evolutionary and Rotational properties (MOBSTER) – I. First-light observations of known magnetic B and A stars

David-Uraz

Neiner

Sikora

et al. 2019

Monthly Notices of the Royal Astronomical Society

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In this paper we introduce the MOBSTER collaboration and lay out its scientific goals. We present first results based on the analysis of nineteen previously known magnetic O, B and A stars observed in 2-minute cadence in sectors 1 and 2 of the Transiting Exoplanet Survey Satellite (TESS ) mission. We derive precise rotational periods from the newly obtained light curves and compare them to previously published values. We also discuss the overall photometric phenomenology of the known magnetic massive and intermediate-mass stars and propose an observational strategy to augment this population by taking advantage of the high-quality observations produced by TESS.

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Assessment of evolutionary status of eclipsing binaries using light-curve parameters and spectral classification

Cited by 17 publications

References 49 publications

Hidden Population of Algols

Hidden Population of Algols

Statistical analysis of Algol‐type eclipsing binaries with stable mass transfer

Magnetic OB[A] Stars with TESS: probing their Evolutionary and Rotational properties (MOBSTER) – I. First-light observations of known magnetic B and A stars

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