A Probable z~7 Galaxy Strongly Lensed by the Rich Cluster Abell 2218: Exploring the Dark Ages

Abstract

We discuss the observational properties of a remarkably faint triply-imaged galaxy revealed in a deep z-band ACS observation of the lensing cluster A2218. A well-constrained mass model for the cluster, which incorporates the outcome of recent Keck spectroscopic campaigns, suggests that the triple system arises via a z>6 source viewed at high magnification (~x25). Optical and IR photometry from HST and Keck confirms the lensing hypothesis and suggests a significant discontinuity occurs in the spectral energy distribution within 9250-9850A. If this break is associated with Gunn-Peterson absorption from neutral hydrogen,6.6<z<7.1 is inferred. Deep Keck spectroscopy conducted using both optical and IR spectrographs fails to reveal any prominent emission lines in this region. However, an IR stellar continuum is detected whose decline below 9800A suggests a spectroscopic redshift of z~7. Regardless of the precise redshift, the source is remarkably compact (<1 kpc) and faint (z=28.0) yet is undergoing vigorous star formation at a rate ~2.6 Mo/yr. An intriguing property is the steep slope of the UV continuum implied by the photometry which may suggest that the source is representative of an early population of galaxies responsible for cosmic reionization. Independent verification of these results is highly desirable but our attempts highlight the difficulty of studying such sources with present facilities and the challenges faced in pushing back the frontiers of the observable universe beyond z~6.5.