A Spectroscopically Identified Galaxy of Probable Redshift z = 6.68

Abstract

The detection and identification of distant galaxies is a prominent goal of observational cosmology because distant galaxies are seen as they were in the distant past and hence probe early galaxy formation, due to the cosmologically significant light travel time. We have sought to identify distant galaxies in very deep spectroscopy by combining a new spectrum extraction technique with photometric and spectroscopic analysis techniques. Here we report the identification of a galaxy of redshift z = 6.68, which is the most distant object ever identified. The spectrum of the galaxy is characterized by an abrupt discontinuity at wavelength $\lambda \approx 9300$ \AA, which we interpret as the \lya decrement (produced by intervening Hydrogen absorption), and by an emission line at wavelength $\lambda \approx 9334$, which we interpret as \lya. The galaxy is relatively bright, and the ultraviolet luminosity density contributed by the galaxy alone is almost ten times the value measured at $z \approx 3$.