The JWST Emission Line Survey (JELS): An untargeted search for Hα emission line galaxies at z > 6 and their physical properties
Abstract
We present the first results of the JWST Emission Line Survey (JELS). Utilising the first NIRCam narrow-band imaging at 4.7μm, over 63 arcmin2 in the PRIMER/COSMOS field, we identified 609 emission line galaxy candidates. From these, we robustly selected 35 Hα star-forming galaxies at z 6.1, with Hα star-formation rates (SFRHα) 0.9-15\ M \ yr-1. Combining our unique Hα sample with the exquisite panchromatic data in the field, we explored their physical properties and star-formation histories, and compared these to a broad-band selected sample at z 6 which offered vital new insights into the nature of high-redshift galaxies. UV-continuum slopes (β) were considerably redder for our Hα sample (β-1.92) compared to the broad-band sample (β-2.35). This was not due to dust attenuation as our Hα sample was relatively dust-poor (median AV=0.23); instead, we argued the reddened slopes could be due to nebular continuum. We compared SFRHα and the UV-continuum-derived SFRUV to SED-fitted measurements averaged over canonical timescales of 10 and 100 Myr (SFR10 and SFR100). We found an increase in recent SFR for our sample of Hα emitters, particularly at lower stellar masses (<109 \ M). We also found SFRHα strongly traced SFR averaged over 10 Myr timescales, whereas the UV-continuum over-predicts SFR on 100 Myr timescales at low stellar masses. These results point to our Hα sample undergoing `bursty' star formation. Our F356W z 6 sample showed a larger scatter in SFR10/SFR100 across all stellar masses, which highlighted how narrow-band photometric selections of Hα emitters are key to quantifying the burstiness of star-formation activity.
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