The physical properties of star forming galaxies in the low redshift universe

Abstract

(modified) We present a comprehensive study of the physical properties of \~105 galaxies with measurable star formation in the SDSS. By comparing physical information extracted from the emission lines with continuum properties, we build up a picture of the nature of star-forming galaxies at z<0.2. We take out essentially all aperture bias using resolved imaging, allowing an accurate estimate of the total SFRs in galaxies. We determine the SFR density to be 1.915+0.02-0.01(rand.)+0.14-0.42 (sys.) h70 10-2 Msun/yr/Mpc3 at z=0.1 (for a Kroupa IMF) and we study the distribution of star formation as a function of various physical parameters. The majority of the star formation in the low redshift universe takes place in moderately massive galaxies (1010-1011 Msun), typically in HSB disk galaxies. Roughly 15% of all star formation takes place in galaxies that show some sign of an active nucleus. About 20% occurs in starburst galaxies. We show that the present to past-average star formation rate, the Scalo b-parameter; is almost constant over almost three orders of magnitude in mass, declining only at M*>1010 Msun. The volume averaged b parameter is 0.408+0.005-0.002 (rand).+0.029-0.090 (sys.) h70-1. We use this value constrain the star formation history of the universe. In agreement with other work we find a correlation between b and morphological type, as well as a tight correlation between the 4000AA break (D4000) and b. We discuss how D4000 can be used to estimate b parameters for high redshift galaxies.

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