📝 SummarXiv

Abstract

We investigate the nature and spectroscopic diversity of early galaxies from a sample of 40 sources at z>10 with JWST/NIRSpec prism observations, the largest of its kind thus far. We compare the properties of strong UV line emitters, as traced by intense CIV emission, with those of more "typical" sources with weak or undetected CIV. The more typical (or "CIV-weak") sources reveal significant scatter in their CIII] line strengths, UV continuum slopes, and physical sizes, spanning CIII] equivalent widths of ~1-51 \r{A}, UV slopes of $\beta$~-1.6 to -2.6, and half-light radii of ~50-1000 pc. In contrast, CIV-strong sources generally occupy the tail of these distributions, with CIII] EWs of 16-51 \r{A}, UV slopes $\beta$<-2.5, compact morphologies ($r_{50}$<100 pc), and elevated star formation surface densities ($\Sigma_{SFR}$>100 $M_{\odot}yr^{-1}kpc^{-2}$). Collectively these properties are consistent with concentrated starbursts that temporarily outshine the extended structure of the galaxy. Comparing average properties from composite spectra, we find the diversity of the sample is primarily driven by bursts and lulls of star formation on very short timescales (<3 Myr), where strong CIV emitters are observed at the apex of these phases and sources devoid of emission lines represent periods of relative inactivity. An apparent association between strong CIV and enhanced nitrogen abundance suggests both features may be modulated by the same duty cycle and reflect a generic mode of star formation. We show that AGN are unlikely to be a significant contributor to this duty cycle based on a comparison of UV line diagnostics to photoionisation models, although some non-thermal activity cannot be fully ruled out. Our results support a unified evolutionary picture whereby transient bursts and lulls can explain the spectral diversity and early growth of bright galaxies in the first 500 Myr.