The Spectroscopic Properties of Lyα-Emitters at z ≈ 2.7: Escaping Gas and Photons from Faint Galaxies

Abstract

We present a spectroscopic survey of 318 faint (R 27, L0.1L*), Lyα-emission-selected galaxies (LAEs) at 2.5<z<3. A sample of 32 LAEs with rest-frame optical spectra from Keck/MOSFIRE are used to interpret the LAE spectra in the context of their systemic redshifts. We find that the Lyα emission of LAEs is typically less spectrally extended than among samples of more luminous continuum-selected galaxies (LBGs) at similar redshifts. Using the MOSFIRE subsample, we find that the peak of the Lyα line is shifted by +200 km/s with respect to systemic across a diverse set of galaxies including both LAEs and LBGs. We also find a small number of objects with significantly blueshifted Lyα emission, a potential indicator of accreting gas. The Lyα-to-Hα line ratios suggest that the LAEs have Lyα escape fractions f esc,Lyα ≈ 30%, significantly higher than typical LBG samples. Using redshifts calibrated by our MOSFIRE sample, we construct composite LAE spectra, finding the first evidence for metal-enriched outflows in such intrinsically-faint high-redshift galaxies. These outflows have smaller continuum covering fractions (fc ≈ 0.3) and velocities (v ave ≈ 100-200 km/s, v max ≈ 500 km/s) than those associated with typical LBGs, suggesting that gas covering fraction is a likely driver of the high Lyα and Ly-continuum escape fractions of LAEs. Our results suggest a similar scaling of outflow velocity with star formation rate as is observed at lower redshifts (v outflow SFR0.25) and indicate that a substantial fraction of gas is ejected with v > vesc.