Paschen Jumps in Little Red Dots: Evidence for Nebular Continua

Abstract

''Little Red Dots'' (LRDs) are broad-line sources at high redshift, initially identified by their compact morphologies, red colours and prominent Balmer breaks. The origin of their optical-to-near-infrared continua is debated, with proposed explanations ranging from direct recombination emission to thermalised blackbodies from stellar-like atmospheres. Here we report evidence for Paschen jumps in a subset of LRDs, consistent with free-bound recombination to hydrogen n=3. The Paschen and Brackett continuum shapes across the sample are consistent with minimally reddened emission from low-temperature gas with Te10\,000 K, while the presence of Paschen jump signatures limits scenarios in which the emission is thermalised. Further, the extreme Hα equivalent widths and the tight observed correlation between Hα and the continuum follow naturally if both originate in recombination emission. This provides an observational upper limit on the contribution of any direct AGN accretion component and any stellar-atmosphere-like component, as well as on the fraction of line emission that can be thermalised as it traverses the cocoon. Ultimately, nebular radiative-transfer models provide a self-consistent explanation of the continuum, line strengths and line profiles without requiring multiple separately fitted components.