A Scaling Relation of LRDs between Broad Hα and Bolometric Luminosities: Enhanced Broad Hα Emission Relative to Low-z Type 1 AGN

Abstract

We investigate the demography of little red dots (LRDs) using 37 objects at z3-7 with JWST/NIRSpec PRISM and grating spectra compiled from various JWST programs. We focus on spectroscopic quantities of the broad Hα luminosity LHα,broad (and the broad Hβ luminosity LHβ,broad where available) and the bolometric luminosity Lbol represented by modified blackbody emission, avoiding quantities contaminated by host-galaxy emission (e.g., total Hα luminosity). We identifiy a tight scaling relation between LHα,broad and Lbol, supporting the interpretation that these emissions are primarily powered by the central engine. Interestingly, the LHα,broad-Lbol scaling relation of LRDs is enhanced by a factor of 40 in LHα,broad relative to that of low-z Type 1 AGN. A similar trend is found in the LHβ,broad-Lbol relation, although the enhancement in LHβ,broad is smaller, only by a factor of 10. We explore the physical origin of these enhancements and find that Cloudy photoionization modeling within the classic locally optimally-emitting cloud (LOC) framework can explain them through an increase in the covering factor from 20\% (Type 1 AGN) to 100\% (LRDs), together with an increase in the hydrogen column density from NH1023\,cm-2 to 1024\,cm-2, with a preferred gas density of 1010\,cm-3, successfully reproducing the modified blackbody emission. Such a nearly unity covering factor without requiring a gas density increase may result from a significant increase in the BLR filling factor or size, corresponding to a ``stuffed BLR" or ``giant BLR," respectively.