Searching for z~7.7 Lyman Alpha Emitters in the COSMOS Field with NEWFIRM

TL;DR

This study conducted a deep imaging survey using ultra-narrowband filters to identify Ly-alpha emitters at z=7.7 in the COSMOS field, providing insights into the epoch of reionization and the evolution of the intergalactic medium.

Contribution

First wide-area ultra-narrowband imaging search for z=7.7 Ly-alpha emitters, constructing a luminosity function and comparing it to lower redshifts to assess IGM evolution.

Findings

Detected four candidate Ly-alpha emitters at z=7.7.

No conclusive evidence for evolution of the Ly-alpha luminosity function from z=5.7 to z=7.7.

Results suggest little change in the neutral hydrogen fraction of the IGM between these redshifts.

Abstract

The study of Ly-alpha emission in the high-redshift universe is a useful probe of the epoch of reionization, as the Ly-alpha line should be attenuated by the intergalactic medium (IGM) at low to moderate neutral hydrogen fractions. Here we present the results of a deep and wide imaging search for Ly-alpha emitters in the COSMOS field. We have used two ultra-narrowband filters (filter width of ~8-9 {\deg}A) on the NEWFIRM camera, installed on the Mayall 4m telescope at Kitt Peak National Observatory, in order to isolate Ly-alpha emitters at z = 7.7; such ultra-narrowband imaging searches have proved to be excellent at detecting Ly-alpha emitters. We found 5-sigma detections of four candidate Ly-alpha emitters in a survey volume of 2.8 x 10^4 Mpc^3 (total survey area ~760 arcmin^2). Each candidate has a line flux greater than 8 x 10^-18 erg s^-1 cm^-2. Using these results to construct a luminosity function and comparing to previously established Ly-alpha luminosity functions at z = 5.7 and z = 6.5, we find no conclusive evidence for evolution of the luminosity function between z = 5.7 and z = 7.7. Statistical Monte Carlo simulations suggest that half of these candidates are real z = 7.7 targets, and spectroscopic follow-up will be required to verify the redshift of these candidates. However, our results are consistent with no strong evolution in the neutral hydrogen fraction of the IGM between z = 5.7 and z = 7.7, even if only one or two of the z = 7.7 candidates are spectroscopically confirmed.