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The GALEX Arecibo SDSS Survey II: The Star Formation Efficiency of Massive Galaxies | | David Schiminovich
; Barbara Catinella
; Guinevere Kauffmann
; Silvia Fabello
; Jing Wang
; Cameron Hummels
; Jenna Lemonias
; Sean M. Moran
; Ronin Wu
; Riccardo Giovanelli
; Martha P. Haynes
; Timothy M. Heckman
; Antara R. Basu-Zych
; Michael R. Blanton
; Jarle Brinchmann
; Tamas Budavari
; Thiago Goncalves
; Benjamin D. Johnson
; Robert C. Kennicutt
; Barry F. Madore
; Christopher D. Martin
; Michael R. Rich
; Linda J. Tacconi
; David A. Thilker
; Vivienne Wild
; Ted K. Wyder
; | | Date: |
28 Jun 2010 | | Abstract: | We use measurements of the HI content, stellar mass and star formation rates
in ~190 massive galaxies with stellar masses greater than 10^10 Msun, obtained
from the Galex Arecibo SDSS Survey (GASS) described in Paper I (Catinella et
al. 2010) to explore the global scaling relations associated with the
bin-averaged ratio of the star formation rate over the HI mass, which we call
the HI-based star formation efficiency (SFE). Unlike the mean specific star
formation rate, which decreases with stellar mass and stellar mass surface
density, the star formation efficiency remains relatively constant across the
sample with a value close to SFE = 10^-9.5 yr^-1 (or an equivalent gas
consumption timescale of ~3 Gyr). Specifically, we find little variation in SFE
with stellar mass, stellar mass surface density, NUV-r color and concentration.
We interpret these results as an indication that external processes or feedback
mechanisms that control the gas supply are important for regulating star
formation in massive galaxies. An investigation into the detailed distribution
of SFEs reveals that approximately 5% of the sample shows high efficiencies
with SFE > 10^-9 yr^-1, and we suggest that this is very likely due to a
deficiency of cold gas rather than an excess star formation rate. Conversely,
we also find a similar fraction of galaxies that appear to be gas-rich for
their given specific star-formation rate, although these galaxies show both a
higher than average gas fraction and lower than average specific star formation
rate. Both of these populations are plausible candidates for "transition"
galaxies, showing potential for a change (either decrease or increase) in their
specific star formation rate in the near future. We also find that 36+/-5% of
the total HI mass density and 47+/-5% of the total SFR density is found in
galaxies with stellar mass greater than 10^10 Msun. [abridged] | | Source: | arXiv, 1006.5447 | | Services: | Forum | Review | PDF | Favorites | |
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