RELICS: Spectroscopy of gravitationally-lensed $z\simeq 2$ reionization-era analogs and implications for CIII] detections at $z>6$

TL;DR

This study investigates CIII] emission in gravitationally-lensed low-mass galaxies at z~2 as analogs for reionization-era galaxies, revealing intense emission linked to young, metal-poor stellar populations, and proposing CIII] as a tool for high-redshift redshift confirmation.

Contribution

It presents the first detailed analysis of CIII] emission in low-mass, reionization-era analogs, demonstrating its potential for spectroscopic redshift confirmation at z>6.

Findings

CIII] emission detected in 3 out of 4 galaxies.

Strong CIII] EW comparable to reionization-era galaxies.

Photoionization models indicate young, metal-poor stellar populations.

Abstract

Recent observations have revealed the presence of strong CIII] emission (EW$_{\rm{CIII]}}>20$ \r{A}) in $z>6$ galaxies, the origin of which remains unclear. In an effort to understand the nature of these line emitters, we have initiated a survey targeting CIII] emission in gravitationally-lensed reionization era analogs identified in HST imaging of clusters from the RELICS survey. Here we report initial results on four galaxies selected to have low stellar masses (2-8$\times$10$^7$ M$_\odot$) and J$_{125}$-band flux excesses indicative of intense [OIII]+H$\beta$ emission (EW$_{\rm{[OIII]+H\beta}}$=500-2000 \r{A}), similar to what has been observed at $z>6$. We detect CIII] emission in three of the four sources, with the CIII] EW reaching values seen in the reionization era (EW$_{\rm{CIII]}}\simeq 17-22$ \r{A}) in the two sources with the strongest optical line emission (EW$_{\rm{[OIII]+H\beta}}\simeq 2000$ \r{A}). We have obtained a Magellan/FIRE near-infrared spectrum of the strongest CIII] emitter in our sample, revealing gas that is both metal poor and highly ionized. Using photoionization models, we are able to simultaneously reproduce the intense CIII] and optical line emission for extremely young (2-3 Myr) and metal poor (0.06-0.08 Z$_\odot$) stellar populations, as would be expected after a substantial upturn in the SFR of a low mass galaxy. The sources in this survey are among the first for which CIII] has been used as the primary means of redshift confirmation. We suggest that it should be possible to extend this approach to $z>6$ with current facilities, using CIII] to measure redshifts of objects with IRAC excesses indicating EW$_{\rm{[OIII]+H\beta}}\simeq 2000$ \r{A}, providing a method of spectroscopic confirmation independent of Ly$\alpha$.