BAT AGN Spectroscopic Survey. VIII. Type 1 AGN with Massive Absorbing Columns

Shimizu, T.; Davies, R. I.; Koss, Michael; Ricci, Cláudio; Lamperti, Isabella; Oh, Kyuseok; Schawinski, Kevin; Trakhtenbrot, Benny; Burtscher, L.; Genzel, R.; Mi, Lin; Lutz, D.; Rosario, D. J.; Sturm, E.; Tacconi, L. J.

doi:10.3847/1538-4357/aab09e

Cited by 32 publications

(43 citation statements)

References 58 publications

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“…To determine the necessary kinematic components to model the doublets, we first fit the [OIII]λλ4959,5007 emis-sion lines to use as a robust template for the presence, location, and width of the existing kinematic components comprising the ionized gas as we recently did for this same galaxy in Shimizu et al (2018). In fitting the [OIII] doublet, we fixed the velocity and dispersion of the components to be the same between each of the lines and fixed the intensity ratio (5007/4959) to 3, the theoretical value.…”

Section: Discussionmentioning

confidence: 99%

The multiphase gas structure and kinematics in the circumnuclear region of NGC 5728

Shimizu

Davies

Lutz

et al. 2019

Monthly Notices of the Royal Astronomical Society

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We report on our combined analysis of HST, VLT/MUSE, VLT/SINFONI, and ALMA observations of the local Seyfert 2 galaxy, NGC 5728 to investigate in detail the feeding and feedback of the AGN. The datasets simultaneously probe the morphology, excitation, and kinematics of the stars, ionized gas, and molecular gas over a large range of spatial scales (10 pc-10 kpc). NGC 5728 contains a large stellar bar which is driving gas along prominent dust lanes to the inner 1 kpc where the gas settles into a circumnuclear ring. The ring is strongly star forming and contains a substantial population of young stars as indicated by the lowered stellar velocity dispersion and gas excitation consistent with HII regions. We model the kinematics of the ring using the velocity field of the CO (2-1) emission and stars and find it is consistent with a rotating disk. The outer regions of the disk, where the dust lanes meet the ring, show signatures of inflow at a rate of 1 M yr −1 . Inside the ring, we observe three molecular gas components corresponding to the circular rotation of the outer ring, a warped disk, and the nuclear stellar bar. The AGN is driving an ionized gas outflow that reaches a radius of 250 pc with a mass outflow rate of 0.08 M yr −1 consistent with its luminosity and scaling relations from previous studies. While we observe distinct holes in CO emission which could be signs of molecular gas removal, we find that largely the AGN is not disrupting the structure of the circumnuclear region.

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Section: Discussionmentioning

confidence: 99%

The multiphase gas structure and kinematics in the circumnuclear region of NGC 5728

Shimizu

Davies

Lutz

et al. 2019

Monthly Notices of the Royal Astronomical Society

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“…Koss et al (2017) presented an overview of the optical spectroscopic data. Additional extended multi-wavelength campaigns from near-IR (NIR) to soft X-ray wavelengths (Berney et al 2015;Lamperti et al 2017;Oh et al 2017;Ricci et al 2017b;Trakhtenbrot et al 2017;Ricci et al 2017a;Oh et al 2018;Powell et al 2018;Ricci et al 2018;Shimizu et al 2018) have allowed us to further characterize the BASS sample, studying for example the connection between X-ray and optical obscuration, NIR lines, X-ray photon index, absorption and coronal properties.…”

Section: Datamentioning

confidence: 99%

“…We have also considered the opposite view, i.e. that type 1.9 behave as type 2 Seyfert AGN, where the BLR is mimicked in long-slit spectra by an outflow that broadens the emission lines (Shimizu et al (2018); hereafter S18). Of the 57 type 1.9 sources analyzed in S18, 16 (28%) are found to possibly be type 2 AGN with the BLR simulated by an outflow that is detected in [O iii].…”

Section: Type 2 Vs Type 19 Agnmentioning

confidence: 99%

BAT AGN Spectroscopic Survey – XIX. Type 1 versus type 2 AGN dichotomy from the point of view of ionized outflows

Rojas

Sani

Gavignaud

et al. 2019

Monthly Notices of the Royal Astronomical Society

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We present a detailed study of ionized outflows in a large sample of ∼650 hard X-ray detected AGN. Using optical spectroscopy from the BAT AGN Spectroscopic Survey (BASS) we are able to reveal the faint wings of the [O iii] emission lines associated with outflows covering, for the first time, an unexplored range of low AGN bolometric luminosity at low redshift (z ∼0.05). We test if and how the incidence and velocity of ionized outflow is related to AGN physical parameters: black hole mass (M BH ), gas column density (N H ), Eddington Ratio (λ Edd ), [O iii], X-ray, and bolometric luminosities. We find a higher occurrence of ionized outflows in type 1.9 (55%) and type 1 AGN (46%) with respect to type 2 AGN (24%). While outflows in type 2 AGN are evenly balanced between blue and red velocity offsets with respect to the [O iii] narrow component, they are almost exclusively blueshifted in type 1 and type 1.9 AGN. We observe a significant dependence between the outflow occurrence and accretion rate, which becomes relevant at high Eddington ratios (Log(λ Edd ) −1.7). We interpret such behaviour in the framework of covering factor-Eddington ratio dependence. We don't find strong trends of the outflow maximum velocity with AGN physical parameters, as an increase with bolometric luminosity can be only identified when including samples of AGN at high luminosity and high redshift taken from literature.

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“…If a significant screen of dust existed, we would expect it to drive the hardness ratio to much harder values. Likewise, the broad Mg II emission (FWHM ∼ 4700 km s −1 ) reported by Mazzucchelli et al (2017, see also Figure 1) indicates that PJ231−20 is a Type 1 AGN; Type 1 AGN have long been seen to have minimal amounts of dust (N H 10 22 cm −2 ; e.g., Shimizu et al 2018). Due to the extreme redshift of PJ231−20, such column densities would have no impact on our observed spectrum.…”

Section: Other Concernsmentioning

confidence: 60%

X-Ray Observations of a [C ii]-bright, z = 6.59 Quasar/Companion System

Connor

Bañados

Mazzucchelli

et al. 2020

ApJ

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We present deep Chandra observations of PSO J231.6576−20.8335, a quasar at redshift z = 6.59 with a nearby (∼8 proper kpc) companion galaxy. ALMA observed both the quasar and companion to be bright in [C II], and the system has significant extended Lyα emission around the quasar, suggesting that a galaxy merger is ongoing. Unlike previous studies of two similar systems, and despite observing the system with Chandra for 140 ks, we do not detect the companion in X-rays. The quasar itself is detected, but only 13.3 +4.8 −3.7 net counts are observed. From a basic spectral analysis, the X-ray spectrum of the quasar is soft (hardness ratio of HR = −0.60 +0.17 −0.27 , power-law index of Γ = 2.6 +1.0 −0.9 ), which results in a rest-frame X-ray luminosity comparable to other bright quasars (L 2−10 = 1.09 +2.20 −0.70 × 10 45 erg s −1 ) despite the faint observed X-ray flux. We highlight two possible interpretations of this result: the quasar has a steep value of Γ -potentially related to observed ongoing Eddington accretion -thereby pushing much of the emission out of our observed band, or the quasar has a more normal spectrum (Γ∼2) but is therefore less X-ray luminous (L 2−10 ∼ 0.6 × 10 45 erg s −1 ).

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BAT AGN Spectroscopic Survey. VIII. Type 1 AGN with Massive Absorbing Columns

Cited by 32 publications

References 58 publications

The multiphase gas structure and kinematics in the circumnuclear region of NGC 5728

The multiphase gas structure and kinematics in the circumnuclear region of NGC 5728

BAT AGN Spectroscopic Survey – XIX. Type 1 versus type 2 AGN dichotomy from the point of view of ionized outflows

X-Ray Observations of a [C ii]-bright, z = 6.59 Quasar/Companion System

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