The Lyman α Reference Sample XIV: Lyman α imaging of 45 low redshift star-forming galaxies and inferences on global emission

Abstract

We present Ly α imaging of 45 low redshift star-forming galaxies observed with the Hubble Space Telescope. The galaxies have been selected to have moderate to high star formation rates using far-ultraviolet (FUV) luminosity and equivalent width criteria, but no constraints on Ly α luminosity. We employ a pixel stellar continuum fitting code to obtain accurate continuum subtracted Ly α, H α and H β maps. We find that Ly α is less concentrated than FUV and optical line emission in almost all galaxies with significant Ly α emission. We present global measurements of Ly α and other quantities measured in apertures designed to capture all of the Ly α emission. We then show how the escape fraction of Ly α relates to a number of other measured quantities (mass, metallicity, star formation, ionisation parameter, and extinction). We find that the escape fraction is strongly anti-correlated with nebular and stellar extinction, weakly anti-correlated with stellar mass, but no conclusive evidence for correlations with other quantities. We show that Ly α escape fractions are inconsistent with common dust extinction laws, and discuss how a combination of radiative transfer effects and clumpy dust models can help resolve the discrepancies. We present a star formation rate calibration based on Ly α luminosity, where the equivalent width of Ly α is used to correct for non-unity escape fraction, and show that this relation provides a reasonably accurate SFR estimate. We also show stacked growth curves of Ly α for the galaxies that can be used to find aperture loss fractions at a given physical radius.