Star formation history and dust attenuation in galaxies drawn from ultraviolet surveys

Abstract

We compile a new sample of 115 nearby, non-Seyfert galaxies spanning a wide range of star formation activities, from starburst to nearly dormant, based on ultraviolet (UV) observations with various satellites. We combine these observations with infrared (IR) observations to study the relation between ratio of total far-IR to UV luminosities and UV spectral slope (the `IRX-UV' relation). We show that, at fixed UV spectral slope, quiescent star-forming galaxies in our sample have systematically lower ratio of total far-IR to UV luminosities than starburst galaxies. The strengths of spectral indices sensitive to star formation history, such as the 4000 A break and EW(Ha), correlate well with distance from the mean relation for starburst galaxies in the IRX-UV diagram, while there is little or no correlation between the dust-sensitive Ha/Hb ratio and this distance. This is strong observational evidence that the star formation history is relevant to the `second parameter' affecting the IRX-UV relation. We show that these results can be understood in the framework of the simple model of Charlot & Fall 2000 for the transfer of starlight through the ISM in galaxies. We confirm that, for starburst galaxies, the tight IRX-UV relation can be understood most simply as a sequence in overall dust content. In addition, we find that the broadening of the relation for quiescent star-forming galaxies can be understood most simply as a sequence in the ratio of present to past-averaged star formation rates. We provide simple formulae for estimating the UV attenuation as a function of either the ratio of far-IR to UV luminosities or the UV spectral slope and show that the accuracy of these estimates can be improved if some constraints are available on the ratio of present to past-averaged star formation rates [abridged].