An uncontaminated measurement of the escaping Lyman continuum at z3

Abstract

Observations of reionization-era analogs at z3 are a powerful tool for constraining reionization. Rest-ultraviolet observations are particularly useful, in which both direct and indirect tracers of ionizing-photon production and escape can be observed. We analyse a sample of 124 z3 galaxies from the Keck Lyman Continuum Spectroscopic Survey, with sensitive spectroscopic measurements of the Lyman continuum (LyC) region. We present a method of removing foreground contamination from our sample using high-resolution, multiband Hubble Space Telescope imaging. We re-measure the global properties of the cleaned sample of 13 individually-detected LyC sources and 107 individually-undetected sources, including a sample-averaged absolute escape fraction of fesc,abs=0.060.01 and a sample-averaged ratio of ionizing to non-ionizing ultraviolet flux density of <f900/f1500>out=0.0400.006, corrected for attenuation from the intergalactic and circumgalactic media. Based on composite spectra, we also recover a strong positive correlation between <f900/f1500>out and Lyα equivalent width (Wλ(Lyα)) and a negative correlation between <f900/f1500>out and UV luminosity. As in previous work, we interpret the relationship between <f900/f1500>out and Wλ(Lyα) in terms of the modulation of the escape of ionizing radiation from star-forming galaxies based on the covering fraction of neutral gas. We also use a Wλ(Lyα)-weighted <f900/f1500>out to estimate an ionizing emissivity from star-forming galaxies at z3 as ε LyC5.5×1024erg s-1Hz-1Mpc-3. This estimate, evaluated using the uncontaminated sample of this work, affirms that the contribution of galaxies to the ionizing background at z3 is comparable to that of active galactic nuclei.