Comparing Infrared Star-Formation Rate Indicators with Optically-Derived Quantities

Abstract

We examine the UV reprocessing efficiencies of warm dust and polycyclic aromatic hydrocarbons (PAHs) through an analysis of the mid- and far-infrared surface luminosity densities of 85 nearby Hα-selected star-forming galaxies detected by the volume-limited KPNO International Spectroscopic Survey (KISS). Because Hα selection is not biased toward continuum-bright objects, the KISS sample spans a wide range in stellar masses (108-1012M), as well as Hα luminosity (1039-1043ergs/s), mid-infrared 8.0μm luminosity (1041-1044ergs/s), and [Bw-R] color (-.1-2.2). We find that mid-infrared polycyclic aromatic hydrocarbon (PAH) emission in the Spitzer IRAC 8.0μm band correlates with star formation, and that the efficiency with which galaxies reprocess UV energy into PAH emission depends on metallicity. We also find that the relationship between far-infrared luminosity in the Spitzer MIPS 24μm band pass and Hα-measured star-formation rate varies from galaxy to galaxy within our sample; we do not observe a metallicity dependence in this relationship. We use optical colors and established mass-to-light relationships to determine stellar masses for the KISS galaxies; we compare these masses to those of nearby galaxies as a confirmation that the volume-limited nature of KISS avoids strong biases. We also examine the relationship between IRAC 3.6μm luminosity and galaxy stellar mass, and find a color-dependent correlation between the two.