arXiv:1209.1512 Abstract | arXiv Analytics

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Radiation hydrodynamics simulations of massive star formation using Monte Carlo radiation transfer

Tim J. Harries, Tom J. Haworth, David Acreman

Published 2012-09-07Version 1

We present a radiation hydrodynamics simulation of the formation of a massive star using a Monte Carlo treatment for the radiation field. We find that strong, high speed bipolar cavities are driven by the radiation from the protostar, and that accretion occurs stochastically from a circumstellar disc. We have computed spectral energy distributions and images at each timestep, which may in future be used to compare our models with photometric, spectroscopic, and interferometric observations of young massive stellar objects.

Comments: 4 pages, 2 Figures; to appear in The Labyrinth of Star Formation, (eds.) D. Stamatellos, S. Goodwin, and D. Ward-Thompson, Springer, in press

Categories: astro-ph.SR

Keywords: monte carlo radiation transfer, radiation hydrodynamics simulation, massive star formation, monte carlo treatment, young massive stellar objects

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