Investigating the X-ray emission from the massive WR+O binary WR 22 using 3D hydrodynamical models

Parkin, E. R.; Gosset, Eric

doi:10.1051/0004-6361/201016125

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Investigating the X-ray emission from the massive WR+O binary WR 22 using 3D hydrodynamical models

Parkin, E. R.; Gosset, Eric

2011 • In Astronomy and Astrophysics, 530, p. 119

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https://hdl.handle.net/2268/91038

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10.1051/0004-6361/201016125

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Keywords :

stars: winds; outflows; stars: early-type; stars: individual: WR 22; stars: massive; X-rays: binaries; hydrodynamics

Abstract :

[en] <BR /> Aims: We examine the dependence of the wind-wind collision and subsequent X-ray emission from the massive WR+O star binary WR 22 on the acceleration of the stellar winds, radiative cooling, and orbital motion. <BR /> Methods: Three dimensional (3D) adaptive-mesh refinement (AMR) simulations are presented that include radiative driving, gravity, optically-thin radiative cooling, and orbital motion. Simulations were performed with instantaneously accelerated and radiatively driven stellar winds. Radiative transfer calculations were performed on the simulation output to generate synthetic X-ray data, which are used to conduct a detailed comparison against observations. <BR /> Results: When instantaneously accelerated stellar winds are adopted in the simulation, a stable wind-wind collision region (WCR) is established at all orbital phases. In contrast, when the stellar winds are radiatively driven, and thus the acceleration regions of the winds are accounted for, the WCR is far more unstable. As the stars approach periastron, the ram pressure of the WR's wind overwhelms the O star's and, following a significant disruption of the shocks by non-linear thin-shell instabilities (NTSIs), the WCR collapses onto the O star. X-ray calculations reveal that when a stable WCR exists the models over-predict the observed X-ray flux by more than two orders of magnitude. The collapse of the WCR onto the O star substantially reduces the discrepancy in the 2-10keV flux to a factor of ≃ 6 at φ = 0.994. However, the observed spectrum is not well matched by the models. <BR /> Conclusions: We conclude that the agreement between the models and observations could be improved by increasing the ratio of the mass-loss rates in favour of the WR star to the extent that a normal wind ram pressure balance does not occur at any orbital phase, potentially leading to a sustained collapse of the WCR onto the O star. Radiative braking may then play a significant rôle for the WCR dynamics and resulting X-ray emission.

Disciplines :

Space science, astronomy & astrophysics

Author, co-author :

Parkin, E. R.; Institut d'Astrophysique et de Géophysique, Université de Liège, 17 allée du 6 Août, B5c, 4000, Sart Tilman, Belgium ; Research School of Astronomy and Astrophysics, Mount Stromlo Observatory, Australian National University, Cotter Road, Weston Creek, ACT, 2611, Australia

Gosset, Eric ; Institut d'Astrophysique et de Géophysique, Université de Liège, 17 allée du 6 Août, B5c, 4000, Sart Tilman, Belgium

Language :

English

Title :

Investigating the X-ray emission from the massive WR+O binary WR 22 using 3D hydrodynamical models

Publication date :

01 June 2011

Journal title :

Astronomy and Astrophysics

ISSN :

0004-6361

eISSN :

1432-0746

Publisher :

EDP Sciences, Les Ulis, France

Volume :

530

Pages :

119

Peer reviewed :

Peer Reviewed verified by ORBi

Additional URL :

http://adsabs.harvard.edu/abs/2011A%26A...530A.119P

Commentary :

http://de.arxiv.org/abs/1104.2383

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since 23 June 2011

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