2013MNRAS.434..696K -
Mon. Not. R. Astron. Soc., 434, 696-709 (2013/September-1)
Constrained simulations of the Antennae galaxies: comparison with Herschel-PACS observations.
KARL S.J., LUNTTILA T., NAAB T., JOHANSSON P.H., KLAAS U. and JUVELA M.
Abstract (from CDS):
We present a set of hydro-dynamical numerical simulations of the Antennae galaxies in order to understand the origin of the central overlap starburst. Our dynamical model provides a good match to the observed nuclear and overlap star formation, especially when using a range of rather inefficient stellar feedback efficiencies (0.01 ≲ qEoS ≲ 0.1). In this case a simple conversion of local star formation to molecular hydrogen surface density motivated by observations accounts well for the observed distribution of CO. Using radiative transfer post-processing we model synthetic far-infrared spectral energy distributions (SEDs) and two-dimensional emission maps for direct comparison with Herschel-PACS observations. For a gas-to-dust ratio of 62:1 and the best matching range of stellar feedback efficiencies the synthetic far-infrared SEDs of the central star-forming region peak at values of ∼ 65-81Jy at 99-116µm, similar to a three-component modified blackbody fit to infrared observations. Also the spatial distribution of the far-infrared emission at 70µm, 100µm and 160µm compares well with the observations: ≳ 50percent ( ≳ 35percent) of the emission in each band is concentrated in the overlap region while only <30percent (<15percent) is distributed to the combined emission from the two galactic nuclei in the simulations (observations). As a proof of principle we show that parameter variations in the feedback model result in unambiguous changes both in the global and in the spatially resolved observable far-infrared properties of Antennae galaxy models. Our results strengthen the importance of direct, spatially resolved comparative studies of matched galaxy merger simulations as a valuable tool to constrain the fundamental star formation and feedback physics.
Abstract Copyright:
© 2013 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society (2013)
Journal keyword(s):
methods: numerical - galaxies: evolution - galaxies: individual: NGC 4038/4039 - galaxies: interactions - galaxies: starburst
Simbad objects:
15
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