Jonathan Mackey, Norbert Langer, Dominique M. -A. Meyer, Vasilii V. Gvaramadze, Shazrene Mohamed, Hilding R. Neilson, Andrea Mignone
Published 2014-06-03Version 1
The circumstellar medium around massive stars is strongly impacted by stellar winds, radiation, and explosions. We use numerical simulations of these interactions to constrain the current properties and evolutionary history of various stars by comparison with observed circumstellar structures. Two- and three-dimensional simulations of bow shocks around red supergiant stars have shown that Betelgeuse has probably only recently evolved from a blue supergiant to a red supergiant, and hence its bow shock is very young and has not yet reached a steady state. We have also for the first time investigated the magnetohydrodynamics of the photoionised H II region around the nearby runaway O star Zeta Oph. Finally, we have calculated a grid of models of bow shocks around main sequence and evolved massive stars that has general application to many observed bow shocks, and which forms the basis of future work to model the explosions of these stars into their pre-shaped circumstellar medium.
Comments: 7 pages, 7 figures, page format edited to save space, conference proceedings: NIC Symposium, 12-13 February 2014, Juelich, Germany (Eds. K. Binder, G. Muenster, M. Kremer)
Journal: Publication Series of the John von Neumann Institute for Computing (NIC), 2014, Volume 47 (ISBN 978-3-89336-933-1), pp. 77-85
Bottling the Champagne: Dynamics and Radiation Trapping of Wind-Driven Bubbles around Massive Stars
Massive runaway stars in the Large Magellanic Cloud
Thermal emission from bow shocks I: 2D Hydrodynamic Models of the Bubble Nebula
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