The Nature of the Second Parameter in the IRX-beta Relation for Local Galaxies

TL;DR

This study investigates how stellar population age influences the IRX-beta relation in local galaxies, revealing that age and star formation history significantly affect UV color and dust attenuation estimates.

Contribution

It demonstrates that stellar age and star formation history are key factors explaining deviations in the IRX-beta relation for normal star-forming galaxies.

Findings

Stellar age correlates with UV color beta in galaxies.

Instantaneous burst models better explain the IRX-beta scatter.

UV attenuation is influenced by stellar population age and SFH.

Abstract

We present an analysis of 98 galaxies of low-dust content, selected from the Spitzer Local Volume Legacy survey, aimed at examining the relation between the ultraviolet (UV) color, beta, and dust attenuation in normal star-forming galaxies. The IRX-beta diagram relates the total dust attenuation in a galaxy, traced by the far-IR (FIR) to UV ratio, to the observed UV color, indicated by beta. Previous research has indicated that while starburst galaxies exhibit a relatively tight IRX-beta relation, normal star-forming galaxies do not, and have a much larger spread in the total-IR to far-UV (FUV) luminosity for a fixed UV color. We examine the role that the age of the stellar population plays as the "second parameter" responsible for the observed deviation and spread of star-forming galaxies from the starburst relation. We model the FUV to FIR spectral energy distribution (SED) of each galaxy according to two broad bins of star formation history (SFH): constant and instantaneous burst. We find clear trends between stellar population mean age estimators (extinction-corrected FUV/NIR, U-B, and EW(H-alpha)) and the UV color, beta; the trends are mostly driven by the galaxies best-described by instantaneous burst populations. We also find a significant correlation between beta and the mean age directly determined from the best-fit instantaneous models. As already indicated by other authors, the UV attenuation in star-forming galaxies may not be recovered with the UV color alone and is highly influenced by the stellar population's mean age and SFH. Overall, the scatter in the IRX-beta diagram is better correlated with beta than with the perpendicular distance.