Spectroscopic Confirmation of a z=6.740 Galaxy behind the Bullet Cluster

TL;DR

This study spectroscopically confirms a faint galaxy at redshift 6.74 behind the Bullet Cluster, detecting the faintest Lyα emission at such high redshift, providing insights into early universe galaxy properties.

Contribution

First spectroscopic confirmation of a faint z=6.74 galaxy behind a galaxy cluster, detecting the faintest Lyα emission at these redshifts, and demonstrating the potential of lensing for studying early galaxies.

Findings

Detected Lyα emission at z=6.74 with high significance.

Measured the faintest Lyα flux at these redshifts.

Confirmed a sub-L* galaxy at high redshift with lensing aid.

Abstract

We present the first results of our spectroscopic follow-up of 6.5 < z < 10 candidate galaxies behind clusters of galaxies. We report the spectroscopic confirmation of an intrinsically faint Lyman break galaxy (LBG) identified as a z 850LP-band dropout behind the Bullet Cluster. We detect an emission line at {\lambda} = 9412 {\AA} at >5{\sigma} significance using a 16 hr long exposure with FORS2 VLT. Based on the absence of flux in bluer broadband filters, the blue color of the source, and the absence of additional lines, we identify the line as Ly{\alpha} at z = 6.740 \pm 0.003. The integrated line flux is f = (0.7 \pm 0.1 \pm 0.3) \times 10^{-17} erg^{-1} s^{-1} cm^{-2} (the uncertainties are due to random and flux calibration errors, respectively) making it the faintest Ly{\alpha} flux detected at these redshifts. Given the magnification of {\mu} = 3.0 \pm 0.2 the intrinsic (corrected for lensing) flux is f^int = (0.23 \pm 0.03 \pm 0.10 \pm 0.02) \times 10^{-17} erg^{-1} s^{-1} cm^{-2} (additional uncertainty due to magnification), which is ~2-3 times fainter than other such measurements in z ~ 7 galaxies. The intrinsic H 160W-band magnitude of the object is m^int(H_160W)=27.57 \pm 0.17, corresponding to 0.5 L* for LBGs at these redshifts. The galaxy is one of the two sub-L* LBG galaxies spectroscopically confirmed at these high redshifts (the other is also a lensed z = 7.045 galaxy), making it a valuable probe for the neutral hydrogen fraction in the early universe.