(LRDs)2: The Low-ReDshift Little Red Dots Survey. II. DESI DR1 Sample

Abstract

JWST has revealed a substantial population of "Little Red Dots" (LRDs) at z>4, challenging conventional AGN frameworks. However, the low-redshift regime remains largely unexplored. In the second paper of the (LRDs)2 series, we present a systematic selection from DESI DR1 and identify 27 LRDs at z=0.2-0.9, yielding a number density lower limit of 7.5 × 10-10 cMpc-3. We conducted near-IR spectroscopic follow-up observations for 18 of them, revealing their full SED shapes and emission lines. These low-z LRDs share the hallmark properties of their high-z counterparts: compact morphology, V-shaped UV-optical continua, broad Balmer emission with extreme decrements (median Hα/Hβ 16), frequent Balmer absorption (67%), and blackbody-like optical-to-near-IR continua. All have low metallicity, occupy the same regions in the BPT diagram as high-z LRDs, and have softer ionizing spectra than typical AGNs. The consistency between low-z and high-z LRD properties indicates the same physical processes at work. The correlation between broad-line Balmer luminosity and L5100 deviates from that of local type-1 AGNs, limiting the direct application of local BH mass calibrations. Ionized [O III] outflows are ubiquitous (78%). One LRD at z=0.196, J1717+3807, shows robust long-term variability in i and WISE bands. The optical-to-NIR continua of LRDs reveal a wide range of temperatures 2000-4700 K (peak 0.6-1.5 μm), with a subset showing cooler and larger envelopes than those at high z. Low-z LRDs serve not only as proximate laboratories for probing the nature of LRDs, but also trace the cosmic evolution of this population from the cosmic dawn to the present day.