Astronomy and Astrophysics – Astrophysics
Scientific paper
2006-04-03
Astrophys.J. 646 (2006) 107-132
Astronomy and Astrophysics
Astrophysics
29 pages, 17 figures, 4 tables. Accepted for publication in ApJ
Scientific paper
10.1086/504891
We present analysis of the near-infrared spectra of 114 rest-frame UV-selected star-forming galaxies at z~2. By combining the H-alpha spectra with photometric measurements from observed 0.3--8 micron, we assess the relationships between kinematics, dynamical masses, inferred gas fractions, and stellar masses and ages. The H-alpha line widths give a mean dynamical mass M_dyn=6.9 +/- 0.6 x 10^10 Msun within a typical radius of ~6 kpc, after excluding AGN. The average dynamical mass is ~2 times larger than the average stellar mass, and the two agree to within a factor of several for most objects. However, ~15% of the sample has M_dyn >> M_star. These objects are best fit by young stellar populations and tend to have high H-alpha equivalent widths, suggesting that they are young starbursts with large gas masses. Rest-frame optical luminosity and velocity dispersion are correlated with 4 sigma significance. Using the local empirical correlation between star formation rate per unit area and gas surface density, we estimate the mass of the gas associated with star formation, and find a mean gas fraction of ~50% and a strong decrease in gas fraction with increasing stellar mass. The masses of gas and stars combined are considerably better correlated with the dynamical masses than are the stellar masses alone, and agree to within a factor of three for 85% of the sample. The combination of kinematic measurements, estimates of gas masses, and stellar population properties suggest that the factor of ~500 range in stellar mass across the sample cannot be fully explained by intrinsic differences in the total masses of the galaxies, which vary by a factor of ~40; the remaining variation is due to the evolution of the stellar population and the conversion of gas into stars. [Abridged]
Adelberger Kurt Ludvig
Erb Dawn K.
Pettini Max
Reddy Naveen A.
Shapley Alice E.
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