P. Gratier, J. Braine, N. J. Rodriguez-Fernandez, K. F. Schuster, C. Kramer, E. Corbelli, F. Combes, N. Brouillet, P. P. van der Werf, M. Röllig
We present an analysis of the systematic CO(2-1) survey at 12" resolution
covering most of the local group spiral M 33 which, at a distance of 840 kpc,
is close enough that individual giant molecular clouds (GMCs) can be
identified. The goal of this work is to study the properties of the GMCs in
this subsolar metallicity galaxy. The CPROPS (Cloud Properties) algorithm
(Rosolowsky & Leroy 2006) was used to identify 337 GMCs in M 33, the largest
sample to date in an external galaxy. The sample is used to study the GMC
luminosity function, or mass spectrum under the assumption of a constant
N(H2)/ICO ratio. We find that n(L)dL = K*L^(-2.0\pm0.1) for the entire sample.
However, when the sample is divided into inner and outer disk samples, the
exponent changes from 1.6 \pm 0.2 for the centre 2 kpc to 2.3 \pm 0.2 for
galactocentric distances larger than 2 kpc. Based on the emission in the FUV,
Halpha, 8mu, and 24mu bands, each cloud was classified in terms of its star
forming activity - no star formation, embedded, or exposed star formation
(visible in FUV and Halpha). At least one sixth of the clouds had no (massive)
star formation, suggesting that the average time required for star formation to
start is about one sixth of the total time for which the object is identifiable
as a GMC. The clouds without star formation have significantly lower CO
luminosities than those with star formation, whether embedded or exposed,
presumably related to the lack of heating sources. Taking the cloud sample as a
whole, the main non-trivial correlation was the decrease in cloud CO brightness
(or luminosity) with galactocentric radius. The complete cloud catalog,
including CO and HI spectra and the CO contours on the FUV, Halpha, 8mu, and
24mu images is presented in the appendix.
View original:
http://arxiv.org/abs/1111.4320
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