Probing jet-induced optical variability across timescales in radio-loud NLSy1 galaxies
Abstract
We investigate optical variability across multiple timescales in a sample of radio-loud narrow-line Seyfert~1 (RL-NLSy1) galaxies, including γ-ray detected, γ-ray undetected, and non-jetted systems along with a comparison set of highly polarised core-dominated quasars (HPQs). Using Zwicky Transient Facility light curves, we measure fractional variability (F var) and rest-frame structure functions (SFs) to test whether short-term jet-linked variability is reflected in long-term behaviour. γ-ray detected RL-NLSy1s and HPQs show steeply rising SFs, revealing strong long-term coherence despite modest F var, consistent with Doppler-boosted synchrotron emission from relativistic jets. Non-jetted RL-NLSy1s exhibit the highest F var but plateauing SFs, indicative of stochastic, disc-driven fluctuations lacking long-term coherence. γ-ray undetected RL-NLSy1s show the lowest F var and nearly flat SFs, consistent with weak or absent jet activity across all timescales. Colour-magnitude trends show that jet-dominated sources exhibit redder-when-brighter behaviour, whereas disc-dominated systems exhibit bluer-when-brighter trends. These results show that SF-derived temporal coherence, rather than variability amplitude alone, is a promising diagnostic of jet dominance and orientation, offering a framework for interpreting AGN variability in forthcoming time-domain surveys.
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