We probe the dusty environment of the archetypical type-1 AGN in NGC 4151 with comprehensive IR reverberation mapping over several decades, in J (∼ 1.22 µm), H (∼ 1.63 µm), K (∼ 2.19 µm), L (∼ 3.45 µm) and N-band (∼ 10.6 µm), plus multiple measurements at 20–40 µm. At 1–4 µm, the hot dust reverberation signals come from two distinct dust populations at separate radii (∼40 light days and ∼90 light days), with temperatures of ∼1500–2500 K and ∼900–1000 K, consistent with the expected properties of sublimating graphite and silicate dust grains. The torus inner edge defined by the hottest dust remains at roughly the same radius independent of the AGN optical luminosity over ∼ 25 years. The emission by hot dust warmed directly by the optical/UV AGN output has increased gradually by ∼ 4%/year, indicating a possibly growing torus. A third dust component at ∼ 700 K does not seem to participate directly in the IR reverberation behavior and its emission may originate deep in the circumnuclear torus. We find a reverberation signal at ∼ 10 µm with an inferred radius for the warm dust of ∼2.6 pc. The lack of variability at 20–40 µm indicates the far-IR emission comes from even more extended regions. The torus properties revealed by dust reverberation analysis are inconsistent with predictions from pure clumpy torus models. Instead, the NGC 4151 torus appears to be flared, allowing direct dust heating by the nucleus over radial distances of ∼0.03 to &3 pc. We integrate our results with previous work for a complete picture of the AGN dusty environment.
|Original language||English (US)|
|State||Published - Nov 15 2020|
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