Little Red Dot - Host Galaxy = Black Hole Star: A Gas-Enshrouded Heart at the Center of Every Little Red Dot

Abstract

The central engines of Little Red Dots (LRDs) may be ``black hole stars" (BH*s), early stages of black hole growth characterized by dense gas envelopes. So far, the most direct evidence for BH*s comes from a handful of sources where the host galaxy is completely outshone as suggested by their remarkably steep Balmer breaks. Here we present a novel scheme to disentangle BH*s from their host galaxies assuming that the [OIII]5008Å line arises exclusively from the host. Using a sample of 98 LRDs (z~2-9) with high quality NIRSpec/PRISM spectra, we demonstrate that the host-subtracted median stack displays a Balmer break >2× stronger than massive quiescent galaxies, with the rest-optical continuum resembling a blackbody-like SED (Teff~4050 K, (Lbol)~43.9 erg s-1, Reff~1300 au). We measure a steep Balmer decrement (Hα/Hβ>10) and numerous density-sensitive features (e.g., FeII, HeI, OI). These are hallmark signatures of dense gas envelopes, providing population-level evidence that BH*s indeed power LRDs. In the median LRD, BH*s account for 20\% of the UV emission, 50\% at the Balmer break, and 90\% at wavelengths longer than Hα with the remainder arising from the host. BH*s preferentially reside in low-mass galaxies (M~108\, M) undergoing recent starbursts, as evidenced by extreme emission line EWs (e.g., [OIII]5008Å~1100Å, CIII]~12Å), thereby favoring BH* origins linked to star-formation. We show V-shaped LRD selections are biased to high BH*/host fractions (60\% at 5500Å) -- less dominant BH*s may be powering JWST's blue broad-line AGN. We find BH*s are so commonplace and transient (duty cycle 1\%, lifetime 10 Myrs) that every massive black hole may have once shone as a BH*.