ALBERT

Description: Detections of Lyman-break galaxies (LBGs) at high-redshift are affected by gravitational lensing induced by foreground deflectors not only in galaxy clusters, but also in blank fields. We quantify the impact of strong magnification in the samples of B 435 , V 606 , i 775 and z 850 & Y 105 dropouts (4 z 8) observed in the eXtreme Deep Field (XDF) and the Cosmic Assembly Near-infrared Deep Extragalactic Legacy Survey (CANDELS) fields by investigating the proximity of dropouts to foreground objects. We find that ~6 per cent of bright z ~ 7 LBGs ( $m_{H_{160}} 〈 26$ ) have been strongly lensed (μ 〉 2) by foreground objects. This fraction decreases from ~3.5 per cent at z ~ 6 to ~1.5 per cent at z ~ 4. Since the observed fraction of strongly lensed LBGs is a function of the shape of the luminosity function (LF), it can be used to derive Schechter parameters, α and M * , independently from galaxy number counts. Our magnification bias analysis yields Schechter-function parameters in close agreement with those determined from galaxy counts albeit with larger uncertainties. Extrapolation of our analysis to z 8 suggests that surveys with JWST , WFIRST and Euclid should find excess LBGs at the bright end, over an intrinsic exponential cutoff. Finally, we highlight how the magnification bias measurement near the XDF detection limit can be used to probe the population of galaxies beyond this limit. Preliminary results suggest that the magnification bias at M UV ~ –18 is weaker than expected if α –1.7 extends well below the current detection limits. This could imply a flattening of the LF at M UV –16.5. However, selection effects and completeness estimates are difficult to quantify precisely. Thus, we do not rule out a steep LF extending to M UV –15.