Indonesian Students Club

Changing-Look AGN (CL-AGN) are AGN which transition between Seyfert types, challenging AGN unification models. Most CL-AGN have been identified via repeat spectroscopy, making it difficult to determine the duration and magnitude of the CL-AGN transition. As such, the physical mechanisms behind this transition are still unknown. We use synthetic photometry in combination with ZTF light curve data to develop a new criterion to identify photometric CL-AGN transitions based on changes in g-band magnitude and g − r color. We find that a CL-AGN criterion of |∆g| > 0.4 mag and |∆(g − r)| > 0.2 mag recovers a photometric transition in 9.6^+4.9_−3.4% of CL-AGN hosts over the six-year ZTF survey, including a candidate repeating changing-look event in SDSS J084957.78+274728.9. We find that the rate of similar flares among simulated damped random walk light curves is 1.6^+0.19

_−0.17%, among Type 1 Seyferts is 1.2^+0.87_−0.50% , and among Type 2 Seyferts is ≤ 0.39% over six years. Photometric CL-AGN transitions last between 21 and 560 days, with a median duration of 360 days, consistent with the thermal or orbital timescales for AGN disks. We do not detect a correlation between black hole mass and transition duration, likely due to the small sample of detected photometric transitions. This method can be applied to the upcoming Legacy Survey of Space and Time to identify CL-AGN candidates and test theories of their origins.