Lyman-Alpha Escape from Low-Mass, Compact, High-Redshift Galaxies

Abstract

We investigate the effects of stellar populations and sizes on Lyα escape in 27 spectroscopically confirmed and 35 photometric Lyman-Alpha Emitters (LAEs) at z ≈ 2.65 in seven fields of the Bo\"otes region of the NOAO Deep Wide-Field Survey. We use deep HST/WFC3 imaging to supplement ground-based observations and infer key galaxy properties. Compared to typical star-forming galaxies (SFGs) at similar redshifts, the LAEs are less massive (M ≈ 107 - 109~M), younger (ages 1 Gyr), smaller (re < 1 kpc), less dust-attenuated (E(B-V) 0.26 mag), but have comparable star-formation-rates (SFRs ≈ 1 - 100~M yr-1). Some of the LAEs in the sample may be very young galaxies having low nebular metallicities ( Zneb 0.2 Z) and/or high ionization parameters (( U) -2.4). Motivated by previous studies, we examine the effects of the concentration of star formation and gravitational potential on Lyα escape, by computing star-formation-rate surface density, SFR and specific star-formation-rate surface density, sSFR. For a given SFR, the Lyα escape fraction is higher for LAEs with lower stellar masses. LAEs have higher sSFR on average compared to SFGs. Our results suggest that compact star formation in a low gravitational potential yields conditions amenable to the escape of Lyα photons. These results have important implications for the physics of Lyα radiative transfer and for the type of galaxies that may contribute significantly to cosmic reionization.

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