A New Record Census of Dwarf AGN and a Bimodal M BH-M Scaling Relation with DESI DR1

Abstract

Using the first spectroscopic data release from the Dark Energy Spectroscopic Instrument (DESI DR1), we search for AGN signatures in 1,678,787 low-redshift (0.001 z 0.45) line-emitting galaxies. Based on the [NII]-BPT emission-line ratio diagnostic, we identify AGN in 314,245/1,211,573 (25.9%) high-mass ( (M/M) > 9.5) and 9648/467,214 (2.1%) dwarf ( (M/M) 9.5) galaxies. Among these AGN, 17,949 are broad-line candidates (BL-AGN) with broad Hα emission, enabling black hole (BH) mass estimates using single-epoch virial methods. We find that the AGN fraction in line-emitting galaxies increases monotonically with stellar mass, rising from 1.4% at the low-mass end to 93.3% at the high-mass end. Using the large BL-AGN sample, we extend the M BH - M scaling relation down to (M/M) ≈ 7.8 and (M BH/M) ≈ 4.4. In the context of high-redshift overmassive BHs, our results suggest that galaxies and their central BHs may follow two distinct evolutionary pathways across cosmic time. With this paper, we release the EmFit value-added catalog, containing emission-line flux and width measurements for 7.4 million galaxies, the largest catalog with emission-line decomposition into narrow, broad, and outflow components to date. This work significantly expands upon the early DESI results and provides a statistical sample for probing the galaxy-BH connection in the low-mass galaxy regime.