Other
Scientific paper
Jan 2012
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2012aas...21944415d&link_type=abstract
American Astronomical Society, AAS Meeting #219, #444.15
Other
Scientific paper
Much of what is known about the evolution of the interstellar medium in spiral galaxies has been learned by analyzing the properties of giant molecular clouds (GMCs). However, these clouds are composed primarily of molecular hydrogen, which is difficult to observe directly since the temperature of the gas in GMCs is too low to excite H2 line emission. As a result, molecular tracers - the most common of which being the lower rotational transitions of the CO molecule - are typically observed instead, requiring a well-calibrated conversion factor between CO flux and H2 mass (Xco). To investigate GMC evolution within galactic disks, I have created high fidelity images of nearby spiral galaxies with a variety of morphologies by combining CO (J=1-0) observations from the Nobeyama 45-meter single dish telescope and the CARMA interferometer in the uv-plane. These images, created as part of the CO Survey of Nearby Galaxies being completed at Stony Brook, utilize the new rms-weighting technique described in Koda et al. (2011).
In Donovan Meyer et al. (2011), we deconvolve the CO emission of the nearby spiral galaxy NGC 6946 into the largest sample to date of resolved GMCs in a substantial spiral galaxy other than the Milky Way and derive virial masses and Xco within individual GMCs. Extending this work to three other nearby galaxies from the survey for which we can achieve the most resolved measurements (beam sizes less than 65 pc), we find that the sizes and velocity dispersions of GMCs continue to be largely consistent from galaxy to galaxy. However, while the conversion factor remains within a factor of two compared to the Galactic value, there is an indication that it varies systematically between galaxies.
Donovan Meyer Jennifer
Koda Jin
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