Summary of Observational Techniques

Koubský, P.

doi:10.1017/s1743921311028389

Cited by 1 publication

(1 citation statement)

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“…Excluding such extreme cases, 30 days is a reasonable lower limit for orbital periods of Be/X-ray binaries. Note also that the shortest known period for noncompact companions is 28 days for the Be/sdO binary stars o Puppis (Koubský 2012) and 59 Cygni (Peters et al 2013). …”

Section: Prograde Circular Orbitsmentioning

confidence: 99%

Be discs in binary systems – I. Coplanar orbits

Panoglou

Carciofi

Vieira

et al. 2016

Mon. Not. R. Astron. Soc.

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Be stars are surrounded by outflowing circumstellar matter structured in the form of decretion discs. They are often members of binary systems, where it is expected that the decretion disc interacts both radiatively and gravitationally with the companion. In this work we study how various orbital (period, mass ratio and eccentricity) and disc (viscosity) parameters affect the disc structure in coplanar systems. We simulate such binaries with the use of a smoothed particle hydrodynamics code. The main effects of the secondary on the disc are its truncation and the accumulation of material inwards of truncation. We find two cases with respect to the effects of eccentricity: (i) In circular or nearly circular prograde orbits, the disc maintains a rotating, constant in shape, configuration, which is locked to the orbital phase. The disc is smaller in size, more elongated and more massive for low viscosity parameter, small orbital separation and/or high mass ratio. (ii) Highly eccentric orbits are more complex, with the disc structure and total mass strongly dependent on the orbital phase and the distance to the secondary. We also study the effects of binarity in the disc continuum emission. Since the infrared and radio SED are sensitive to the disc size and density slope, the truncation and matter accumulation result in considerable modifications in the emergent spectrum. We conclude that binarity can serve as an explanation for the variability exhibited in observations of Be stars, and that our model can be used to detect invisible companions.

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Section: Prograde Circular Orbitsmentioning

confidence: 99%