Supermassive Black Holes with High Accretion Rates in Active Galactic   Nuclei. III. Detection of Fe II Reverberation in Nine Narrow-Line Seyfert 1   Galaxies

Chen Hu (1); Pu Du (1); Kai-Xing Lu (2,1); Yan-Rong Li (1); Fang Wang; (6); Jie Qiu (1); Jin-Ming Bai (6); Shai Kaspi (7); Luis C. Ho (4,5); Hagai; Netzer (7); Jian-Min Wang (1,3) (SEAMBH collaboration) ((1) Institute of High; Energy Physics; China; (2) Beijing Normal University; China; (3) National; Astronomical Observatories; China; (4) Kavli Institute for Astronomy and; Astrophysics; China; (5) Peking University; China; (6) Yunnan Observatories,; China; (7) Tel-Aviv University; Israel)

arXiv:1503.03611·astro-ph.GA·May 27, 2015

Supermassive Black Holes with High Accretion Rates in Active Galactic Nuclei. III. Detection of Fe II Reverberation in Nine Narrow-Line Seyfert 1 Galaxies

Chen Hu (1), Pu Du (1), Kai-Xing Lu (2,1), Yan-Rong Li (1), Fang Wang, (6), Jie Qiu (1), Jin-Ming Bai (6), Shai Kaspi (7), Luis C. Ho (4,5), Hagai, Netzer (7), Jian-Min Wang (1,3) (SEAMBH collaboration) ((1) Institute of High, Energy Physics, China, (2) Beijing Normal University

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TL;DR

This study measures Fe II emission line reverberation in nine active galactic nuclei, revealing that Fe II emission regions are similar in size to Hbeta regions, supporting their common photoionization origin.

Contribution

First detection of Fe II reverberation in nine AGNs, establishing a radius-luminosity relationship similar to Hbeta, and demonstrating Fe II emission originates from photoionized gas.

Findings

01

Nine AGNs show significant Fe II lag detections.

02

Fe II lag measurements are comparable to Hbeta lag measurements.

03

Fe II emission likely arises from photoionized gas similar to Hbeta.

Abstract

This is the third in a series of papers reporting on a large reverberation-mapping campaign aimed to study the properties of active galactic nuclei (AGNs) with high accretion rates. We present new results on the variability of the optical Fe II emission lines in 10 AGNs observed by the Yunnan Observatory 2.4m telescope during 2012--2013. We detect statistically significant time lags, relative to the AGN continuum, in nine of the sources. This accurate measurement is achieved by using a sophisticated spectral fitting scheme that allows for apparent flux variations of the host galaxy, and several narrow lines, due to the changing observing conditions. Six of the newly detected lags are indistinguishable from the Hbeta lags measured in the same sources. Two are significantly longer and one is slightly shorter. Combining with Fe II lags reported in previous studies, we find a Fe II…

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