273 research outputs found
Infrared Sources in the Small Magellanic Cloud: First Results
We have imaged the entire Small Magellanic Cloud (SMC), one of the two nearest star-forming dwarf galaxies, in all seven IRAC and MIPS bands. The low mass and low metallicity (1/6 solar) of the SMC make it the best local analog for primitive galaxies at high redshift. By studying the properties of dust and star formation in the SMC at high resolution, we can gain understanding of similar distant galaxies that can only be observed in much less detail.
In this contribution, we present a preliminary analysis of the properties of point sources detected in the Spitzer Survey of the Small Magellanic Cloud (S^(3)MC). We find ∼400,000 unresolved or marginally resolved sources in our IRAC images, and our MIPS 24 μm mosaic contains ~17,000 point sources. Source counts decline rapidly at the longer MIPS wavelengths. We use colorcolor and color-magnitude diagrams to investigate the nature of these objects, cross-correlate their positions with those of known sources at other wavelengths, and show examples of how these data can be used to identify interesting classes of objects such as carbon stars and young stellar objects. For additional examples of some of the questions that can be studied with these data, please see the accompanying contributions by Alberto Bolatto (survey information and images), Adam Leroy (dust and gas in a low-metallicity environment), Karin Sandstrom (far infrared-radio continuum correlation), and Snezana Stanimirovic (on a young supernova remnant in the The SMC) mosaic images and point source catalogs we have made have been released to the public on our website (http://celestial.berkeley.edu/spitzer)
Spatially extended and high-velocity dispersion molecular component in spiral galaxies: single-dish vs. interferometric observations
Recent studies of the molecular medium in nearby galaxies have provided
mounting evidence that the molecular gas can exist in two phases: one that is
clumpy and organized as molecular clouds and another one that is more diffuse.
This last component has a higher velocity dispersion than the clumpy one. In
order to investigate these two molecular components further, we compare the
fluxes and line widths of CO in NGC 4736 and NGC 5055, two nearby spiral
galaxies for which high-quality interferometric as well as single-dish data
sets are available. Our analysis leads to two main results: 1) Employing three
different methods, we determine the flux recovery of the interferometer as
compared to the single-dish to be within a range of 35-74% for NGC4736 and
81-92% for NGC5055, and 2) when focusing on high (SNR>5) lines of sight, the
single-dish line widths are larger by ~(40+-20)% than the ones derived from
interferometric data; which is in agreement with stacking all lines of sight.
These results point to a molecular gas component that is distributed over
spatial scales larger than 30"(~1kpc), and is therefore filtered out by the
interferometer. The available observations do not allow us to distinguish
between a truly diffuse gas morphology and a uniform distribution of small
clouds that are separated by less than the synthesized beam size (~3" or
~100pc), as they would both be invisible for the interferometer. This high
velocity dispersion component has a dispersion similar to what is found in the
atomic medium, as traced through observations of the HI line.Comment: 12 pages, 5 figures, Accepted to A
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