A Census of Active Galactic Nuclei Identified by the Mid-infrared [Ne v] Line at z ≤ 0.025

Abstract

We present a census of local active galactic nuclei (AGN) at a redshift of z≤0.025 selected using the high-ionization [Ne v] λ14.32\,μm emission line from the Infrared Database of Extragalactic Observables from Spitzer (IDEOS). We identify 103 sources with detected [Ne v] emission, which we regard as AGN within the volume. This sample represents 18\% of the galaxy population within this redshift range, consistent with AGN fractions derived using other selection techniques. We investigate the biases and properties of this [Ne v]-selected AGN sample by comparing it with traditional AGN selection methods based on hard X-ray, optical, and mid-infrared colors. We find that our selection significantly misses AGN with underdeveloped narrow line regions (NLRs), which account for approximately half of the AGN identified by NLR-independent methods. However, approximately 10\% of our sample are undetected in optical diagnostics, while 40\% are missed by hard X-rays and 70\% by infrared continuum. Notably, 15\% of our AGN are missed by all classical methods, constituting a population of previously unidentified AGN revealed solely by the [Ne v] emission line. Based on our analysis, we show that this line can efficiently select heavily Compton-thick and host-dominated AGN systems. Our analysis also yields mean bolometric luminosities of (L bol/ erg~s-1)=44.50.7, black hole masses of (M BH/M)=7.30.6, and Eddington ratio of λ Edd=0.150.11. Our sample harbors AGN with comparable luminosities but systematically lower-mass black holes accreting at higher Eddington ratios than those in the hard X-ray-selected sample. This suggests that our AGN may represent local analogs of the rapidly growing SMBH population prevalent at cosmic noon.

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