The massive star initial mass function of the Arches cluster

The massive Arches cluster near the Galactic center should be an ideal laboratory for investigating massive star formation under extreme conditions. But it comes at a high price: the cluster is hidden behind several tens of magnitudes of visual extinction. Severe crowding requires space or AO-assist...

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Bibliographic Details
Published in:arXiv.org 2009-05
Main Authors: Espinoza, Pablo, Selman, Fernando J, Melnick, Jorge
Format: Article
Language:English
Subjects:
Arches
Bayesian analysis
Extinction
Galactic clusters
Initial mass function
Massive stars
Milky Way Galaxy
Photometry
Star & galaxy formation
Star clusters
Star formation
Stellar populations
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Summary:The massive Arches cluster near the Galactic center should be an ideal laboratory for investigating massive star formation under extreme conditions. But it comes at a high price: the cluster is hidden behind several tens of magnitudes of visual extinction. Severe crowding requires space or AO-assisted instruments to resolve the stellar populations, and even with the best instruments interpreting the data is far from direct. Several investigations using NICMOS and the most advanced AO imagers on the ground revealed an overall top-heavy IMF for the cluster, with a very flat IMF near the center. There are several effects, however, that could potentially bias these results, in particular the strong differential extinction and the problem of transforming the observations into a standard photometric system in the presence of strong reddening. We present new observations obtained with the NAOS-Conica (NACO) AO-imager on the VLT. The problem of photometric transformation is avoided by working in the natural photometric system of NACO, and we use a Bayesian approach to determine masses and reddenings from the broad-band IR colors. A global value of \(\Gamma=-1.1 \pm 0.2\) for the high-mass end (\(M>10M_{\sun}\)) of the IMF is obtained, and we conclude that a power law of Salpeter slope cannot be discarded for the Arches cluster. The flattening of the IMF towards the center is confirmed, but is less severe than previously thought. We find \(\Gamma=-0.88\pm0.20\), which is incompatible with previous determinations. Within 0.4 pc we derive a total mass of \(\sim2.0(\pm0.6)\times10^{4}M_{\sun}\) for the cluster and a central mass density \(\rho = 2(\pm0.4)\times10^{5} M_{\sun}pc^{-3}\) that confirms Arches as the densest known young massive cluster in the Milky Way.
ISSN:2331-8422
DOI:10.48550/arxiv.0903.2222