Litcius/Paper detail

Distinguishing Tidal Disruption Events and Changing-look Active Galactic Nuclei via Variation in Mid-infrared Color

Yujun Yao, Jingjing Ye, Luming Sun, Ning Jiang, Megan Masterson, Xinwen Shu

2025The Astrophysical Journal Supplement Series7 citationsDOIOpen Access PDF

Abstract

Abstract In this work, we propose that the time variation in mid-infrared (MIR) color is a promising probe to distinguish between MIR outbursts induced by tidal disruption events (TDEs) and changing-look active galactic nuclei (CLAGNs). With an optically selected sample containing TDEs, ambiguous nuclear transients (ANTs), and CLAGNs, we studied the variation in MIR color (W1 − W2) after subtracting the quiescent fluxes using NEOWISE-R data. The MIR color of TDEs and ANTs turns red faster than CLAGNs during the rising phase, as the color variation rate (CVR) of TDEs and ANTs is generally ≳0.2 mag yr −1 , whereas that of CLAGNs is generally ≲0.3 mag yr −1 . This may be caused by the difference between the ultraviolet light curves of TDEs/ANTs and CLAGNs, or be related to no or weak underlying AGN in TDEs/ANTs. In addition, TDEs have a redder color than ANTs at the earliest phase. Based on CVR, we selected high-probability TDE, ANT, and CLAGN candidates from MIR outbursts in samples of Jiang et al. and Masterson et al. We found that both samples are mixtures of TDEs/ANTs and CLAGNs. For MIR outbursts whose hosts are not Seyfert galaxies, we estimated that ∼50%–80% are TDEs and inferred a rate of infrared TDEs of 1.5–2.8 × 10 −5 galaxy −1 yr −1 , comparable with that of optical TDEs; the rest are CLAGNs, suggesting the presence of weak AGNs that cannot be identified using common diagnoses. Our work opens a new door for future classification of infrared-selected transients based on only photometric data.

Topics & Concepts

Active galactic nucleusAstrophysicsPhysicsVariation (astronomy)Light curveGalaxyUltravioletInfraredAstronomyColor temperatureColor differenceStellar, planetary, and galactic studiesAstronomy and Astrophysical ResearchGamma-ray bursts and supernovae