ABSORPTION-LINE PROBES OF THE PREVALENCE AND PROPERTIES OF OUTFLOWS IN PRESENT-DAY STAR-FORMING GALAXIES

We analyze star-forming galaxies drawn from SDSS DR7 to show how the interstellar medium (ISM) Na I lambda lambda 5890, 5896 (Na D) absorption lines depend on galaxy physical properties, and to look for evidence of galactic winds. We combine the spectra of galaxies with similar geometry/physical parameters to create composite spectra with signalto-noise similar to 300. The stellar continuum is modeled using stellar population synthesis models, and the continuum-normalized spectrum is fit with two Na I absorption components. We find that (1) ISM Na D absorption lines with equivalent widths EW > 0.8 angstrom are only prevalent in disk galaxies with specific properties-large extinction (A(V)), high star formation rates (SFR), high SFR per unit area (Sigma(SFR)), or high stellar mass (M(*)); (2) the ISM Na D absorption lines can be separated into two components: a quiescent disk-like component at the galaxy systemic velocity and an outflow component; (3) the disk-like component is much stronger in the edge-on systems, and the outflow component covers a wide angle but is stronger within 60 degrees of the disk rotation axis; (4) the EW and covering factor of the disk component correlate strongly with dust attenuation, highlighting the importance that dust shielding may play in the survival of Na I; (5) the EW of the outflow component depends primarily on SSFR and secondarily on AV; and (6) the outflow velocity varies from similar to 120 to 160 km s(-1) but shows little hint of a correlation with galaxy physical properties over the modest dynamic range that our sample probes (1.2 dex in log Sigma(SFR) and 1 dex in log M(*)).