SIMBAD references

2012A&A...537A..29R - Astronomy and Astrophysics, volume 537A, 29-29 (2012/1-1)

The VLT-FLAMES survey of massive stars: NGC 346-013 as a test case for massive close binary evolution.

RITCHIE B.W., STROUD V.E., EVANS C.J., CLARK J.S., HUNTER I., LENNON D.J., LANGER N. and SMARTT S.J.

Abstract (from CDS):

NGC 346-013 is a peculiar double-lined eclipsing binary in the Small Magellanic Cloud (SMC) discovered by the VLT-FLAMES survey of massive stars. We use spectroscopic and photometric observations to investigate the physical properties and evolutionary history of NGC 346-013. Spectra obtained with VLT/FLAMES are used to construct a radial velocity curve for NGC 346-013 and to characterise the early B-type secondary. Photometry obtained with the Faulkes Telescope South is then used to derive orbital parameters, while spectra of the secondary are compared with synthetic spectra from TLUSTY model atmospheres. The orbital period is found to be 4.20381(12) days, with masses of 19.1±1.0 and 11.9±0.6M. The primary is a rapidly rotating (vrot=320 ±30km/s) late-O dwarf while the secondary, an early-B giant, displays near-synchronous rotation and has filled its Roche lobe, implying that it was originally the more massive component with recent mass transfer ``spinning up'' the primary to near-critical rotation. Comparison with synthetic spectra finds temperatures of 34.5 kK and 24.5 kK for the primary and secondary respectively, with the nitrogen abundance of the secondary enhanced compared to baseline values for the SMC, consistent with the predictions of models of interacting binaries. NGC 346-013 likely evolved via non-conservative mass transfer in a system with initial masses ∼22+15M, with the well-constrained orbital solution and atmospheric parameters making it an excellent candidate for tailored modelling with binary evolution codes. This system will form a cornerstone in constraining the physics of thermal timescale mass transfer, and the associated mass transfer efficiency, in massive close binary systems.

Abstract Copyright:

Journal keyword(s): stars: early-type - stars: fundamental parameters - binaries: spectroscopic - Magellanic Clouds

Simbad objects: 17

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2020.01.24-05:58:52

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