G0.253 + 0.016: a molecular cloud progenitor of an arches-like cluster
Longmore, Steven N., Rathborne, Jill, Bastian, Nate, Alves, Joao, Ascenso, Joana, Bally, John, Testi, Leonardo, Longmore, Andy, Battersby, Cara, Bressert, Eli, Purcell, Cormac, Walsh, Andrew, Jackson, James, Foster, Jonathan, Molinari, Sergio, Meingast, Stefan, Amorim, A., Lima, J., Marques, R., Moitinho, A., Pinhao, J., Rebordao, J., and Santos, F.D. (2012) G0.253 + 0.016: a molecular cloud progenitor of an arches-like cluster. The Astrophysical Journal, 746 (2). 117. pp. 1-10.
PDF (Published Version)
- Published Version
Restricted to Repository staff only |
Abstract
Young massive clusters (YMCs) with stellar masses of 104-105 M ☉ and core stellar densities of 104-105 stars per cubic pc are thought to be the "missing link" between open clusters and extreme extragalactic super star clusters and globular clusters. As such, studying the initial conditions of YMCs offers an opportunity to test cluster formation models across the full cluster mass range. G0.253 + 0.016 is an excellent candidate YMC progenitor. We make use of existing multi-wavelength data including recently available far-IR continuum (Herschel/Herschel Infrared Galactic Plane Survey) and mm spectral line (H2O Southern Galactic Plane Survey and Millimetre Astronomy Legacy Team 90 GHz Survey) data and present new, deep, multiple-filter, near-IR (Very Large Telescope/NACO) observations to study G0.253 + 0.016. These data show that G0.253 + 0.016 is a high-mass (1.3 × 105 M ☉), low-temperature (T dust ~ 20 K), high-volume, and column density (n ~ 8 × 104 cm–3;NH2 ~ 4 × 10 23 cm–2) molecular clump which is close to virial equilibrium (M dust ~ M virial) so is likely to be gravitationally bound. It is almost devoid of star formation and, thus, has exactly the properties expected for the initial conditions of a clump that may form an Arches-like massive cluster. We compare the properties of G0.253 + 0.016 to typical Galactic cluster-forming molecular clumps and find it is extreme, and possibly unique in the Galaxy. This uniqueness makes detailed studies of G0.253 + 0.016 extremely important for testing massive cluster formation models.
Item ID: | 20743 |
---|---|
Item Type: | Article (Research - C1) |
ISSN: | 1538-4357 |
Date Deposited: | 15 May 2012 04:52 |
FoR Codes: | 02 PHYSICAL SCIENCES > 0201 Astronomical and Space Sciences > 020104 Galactic Astronomy @ 100% |
SEO Codes: | 97 EXPANDING KNOWLEDGE > 970102 Expanding Knowledge in the Physical Sciences @ 100% |
Downloads: |
Total: 2 |
More Statistics |