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

**Authors:** Pavel Mayer, Petr Harmanec, Rolf Chini, Anita Nasseri, Jana A., Nemravov\'a, Horst Drechsel, Rodrigo Catalan-Hurtado, Brad N. Barlow, Yves, Fr\'emat, Lenka Kotkov\'a

arXiv: 1701.06826 · 2017-04-05

## TL;DR

This study analyzes high-resolution spectra of seven early-type multiple star systems, revealing new orbital parameters, multiplicity details, and system characteristics, confirming many O stars are often part of complex multiple systems.

## Contribution

It provides the first orbital periods for several systems, discovers new components, and refines parameters, enhancing understanding of massive star multiplicity.

## Key findings

- Orbital periods determined for five systems.
- New third component discovered in HD 92206C.
- HD 164816 likely a cluster member.

## Abstract

Analyses of multi-epoch, high-resolution (~ 50000) optical spectra of seven early-type systems provided various important new insights with respect to their multiplicity. First determinations of orbital periods were made for HD 92206C (2.022 d), HD 112244 (27.665 d), HD 164438 (10.25 d), HD 123056A (~ 1314 d) and HD 123056B (< 2 d); the orbital period of HD 318015 could be improved (23.445975 d). Concerning multiplicity, a third component was discovered for HD 92206C by means of He I line profiles. For HD 93146A, 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 A 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, 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 O9.5III star. Our results for a limited sample corroborate the findings that many O stars are actually massive multiple systems.

## Full text

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## Figures

38 figures with captions in the complete paper: https://tomesphere.com/paper/1701.06826/full.md

## References

87 references — full list in the complete paper: https://tomesphere.com/paper/1701.06826/full.md

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Source: https://tomesphere.com/paper/1701.06826