Characterizing the Molecular ISM at High-resolution in High-z Galaxies
Chelsea Sharon
Rutgers University
In order to understand the evolution of high-redshift galaxies, it
is important to accurately characterize the molecular gas that fuels
their star formation. Access to the CO(1-0) line near the peak of
the cosmic star formation rate density (z~2-3) at the Robert C. Byrd
Green Bank Telescope and the Jansky Very Large Array has revealed a
substantial reservoir of cold molecular gas in submillimeter-selected
galaxies. These data present a more complicated picture of the molecular
ISM in submillimeter galaxies than implied by previous analyses using only
mid-J CO lines. However, it is possible that the galaxy-wide averages of
the CO line ratios used to determine the molecular gas conditions hide
spatial variation on sub-galactic scales, disguising the true excitation
conditions. I will present recent results for several z>2 star-forming
galaxies that illustrate how high spatial and spectral resolution mapping
affects our characterization of the molecular ISM and enables analyses
similar to those performed on low-redshift galaxies, like the resolved
Schmidt-Kennicutt relation.
| Date: | Tuesday, 27 November 2012 |
| Time: | 16:00 |
| Where: | McGill University |
| | Ernest Rutherford Physics Building, R.E. Bell Conference Room (room 103) |
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