The Young and the Dustless: Interpreting Radio Observations of UltraViolet Luminous Galaxies

TL;DR

This study investigates the radio properties of supercompact UV luminous galaxies, revealing they have high star formation rates, less dust, and similarities to high-redshift Lyman Break Galaxies, thus providing insights into their star formation processes.

Contribution

First radio continuum analysis of supercompact UVLGs, showing they resemble Lyman Break Galaxies with high specific star formation and low dust attenuation.

Findings

Galaxies follow the radio-FIR correlation of normal star-forming galaxies.

They exhibit lower radio-to-UV ratios and dust attenuation than similar galaxies.

Spectral features indicate high specific star formation rates and less dust.

Abstract

Ultraviolet Luminous Galaxies (UVLGs) have been identified as intensely star-forming, nearby galaxies. A subset of these, the supercompact UVLGs, are believed to be local analogs of high redshift Lyman Break Galaxies. Here we investigate the radio continuum properties of this important population for the first time. We have observed 42 supercompact UVLGs with the VLA, all of which have extensive coverage in the UV/optical by GALEX and SDSS. Our analysis includes comparison samples of multiwavelength data from the Spitzer First Look Survey and from the SDSS-Galex matched catalogs. In addition we have Spitzer MIPS data for 24 of our galaxies and find that they fall on the radio-FIR correlation of normal star-forming galaxies. We find that our galaxies have lower radio-to-UV ratios and lower Balmer decrements than other local galaxies with similar (high) star formation rates. Optical spectra show they have lower Dn(4000) and HdeltaA indices, higher Hbeta emission-line equivalents widths, and higher [OIII]5007/Hbeta emission-line ratios than normal star forming galaxies. Comparing these results to galaxy spectral evolution models we conclude that supercompact UVLGs are distinguished from normal star forming galaxies firstly by their high specific star formation rates. Moreover, compared to other types of galaxies with similar star formation rates, they have significantly less dust attenuation. In both regards they are similar to Lyman Break Galaxies. This suggests that the process that causes star formation in the supercompact UVLGs differs from other local star forming galaxies, but may be similar to Lyman Break Galaxies.