Finding bright z ≥ 6.6 Lyman-α emitters with lensing: prospects for Euclid

Abstract

We model the z ≥ 6.6 Lyα luminosity function to estimate the number of lensed high-z Lyα emitters that may be detected by the Euclid Deep Survey. To span the whole range of possible predictions we exploit two Lyα luminosity function models and two strong gravitational lensing models from the literature. We show that the planned Euclid Deep Survey observing 40 deg2 over the 920-1850 nm wavelength range down to a flux limit of Flim=5×10-17\,erg s-1\,cm-2 will enable us to find between 0.85 and 1.82 deg-2 lensed Lyα emitters at z ≥ 6.6 depending on the adopted Lyα luminosity function and strong gravitational lensing model. The obvious [OII], [OIII] and Hβ contaminants of the Lyα lensed population will be identified with the help of Euclid's spectral resolving power, while the SKA will enable the identification of the interloper population of Hα emitters. By combining Euclid and the SKA, we will thus be able to identify, for the first time, a sample of 34 to 73 lensed Lyα emitters at z ≥ 6.6.