Dynamical mass estimates for two luminous star clusters in galactic merger remnants

Free access article

Issue		A&A Volume 448, Number 3, March IV 2006


Page(s)		881 - 891
Section		Extragalactic astronomy
DOI		http://dx.doi.org/10.1051/0004-6361:20054177

A&A 448, 881-891 (2006)
DOI: 10.1051/0004-6361:20054177

Dynamical mass estimates for two luminous star clusters in galactic merger remnants

N. Bastian^{1, 2}, R. P. Saglia³, P. Goudfrooij⁴, M. Kissler-Patig², C. Maraston⁵, F. Schweizer⁶ and M. Zoccali⁷

¹ Department of Physics and Astronomy, University College London, Gower Street, London, WC1E 6BT, UK
e-mail: bastian@star.ucl.ac.uk
² European Southern Observatory, Karl-Schwarzschild-Strasse 2, 85748 Garching b. München, Germany
³ Max-Planck-Institut für Extraterrestrische Physik, Giessenbachstrasse, 85748 Garching, Germany
⁴ Space Telescope Science Institute, 3700 San Martin Drive, Baltimore, MD 21218, USA
⁵ University of Oxford, Denys Wilkinson Building, Keble Road, Oxford, OX13RH, UK
⁶ Carnegie Observatories, 813 Santa Barbara Str., Pasadena, CA 91101-1292, USA
⁷ Pontificia Universidad Católica de Chile, Departamento de Astronomía y Astrofísica, Av. Vicuña Mackenna 4860, 782-0436 Macul, Santiago, Chile

(Received 8 September 2005 / Accepted 28 October 2005 )

Abstract
We present high-dispersion spectra of two extremely massive star clusters in galactic merger remnants, obtained using the UVES spectrograph mounted on the ESO Very Large Telescope. One cluster, W30, is located in the ~500 Myr old merger remnant NGC 7252 and has a velocity dispersion and effective radius of $\sigma=27.5\pm2.5$ km s^-1 and $R_{\rm eff}=9.3\pm1.7$ pc, respectively. The other cluster, G114, located in the ~3 Gyr old merger remnant NGC 1316, is much more compact, $R_{\rm eff}=4.08\pm0.55$ pc, and has a velocity dispersion of $\sigma=42.1\pm2.8$ km s^-1. These measurements allow an estimate of the virial mass of the two clusters, yielding ${\cal{M}}_{\rm dyn}(W30)=1.59(\pm0.26)\times 10^7~{\cal{M}}_{\odot}$ and ${\cal{M}}_{\rm dyn}(G114)=1.64(\pm0.13)\times 10^7~{\cal{M}}_{\odot}$ . Both clusters are extremely massive, being more than three times heavier than the most massive globular clusters in the Galaxy. For both clusters we measure light-to-mass ratios, which when compared to simple stellar population (SSP) models of the appropriate age, are consistent with a Kroupa-type stellar mass function. Using measurements from the literature we find a strong age dependence on how well SSP models (with underlying Kroupa or Salpeter-type stellar mass functions) fit the light-to-mass ratio of clusters. Based on this result we suggest that the large scatter in the light-to-mass ratio of the youngest clusters is not due to variations in the underlying stellar mass function, but instead to the rapidly changing internal dynamics of young clusters. Based on sampling statistics we argue that while W30 and G114 are extremely massive, they are consistent with being the most massive clusters formed in a continuous power-law cluster mass distribution. Finally, based on the positions of old globular clusters, young massive clusters (YMCs), ultra-compact dwarf galaxies (UCDs) and dwarf-globular transition objects (DGTOs) in $\kappa$ -space we conclude that 1) UCDs and DGTOs are consistent with the high mass end of star clusters and 2) YMCs occupy a much larger parameter space than old globular clusters, consistent with the idea of preferential disruption of star clusters.

Key words: galaxies: star clusters -- galaxies: interactions -- galaxies: individual: NGC 1316 -- galaxies: individual: NGC 7252

SIMBAD Objects

What is OpenURL?

The OpenURL standard is a protocol for transmission of metadata describing the resource that you wish to access. An OpenURL link contains article metadata and directs it to the OpenURL server of your choice. The OpenURL server can provide access to the resource and also offer complementary services (specific search engine, export of references...). The OpenURL link can be generated by different means.

If your librarian has set up your subscription with an OpenURL resolver, OpenURL links appear automatically on the abstract pages.
You can define your own OpenURL resolver with your EDPS Account. In this case your choice will be given priority over that of your library.
You can use an add-on for your browser (Firefox or I.E.) to display OpenURL links on a page (see http://www.openly.com/openurlref/). You should disable this module if you wish to use the OpenURL server that you or your library have defined.