Anatomy of the AGN in NGC 5548: II. the spatial, temporal, and physical nature of the outflow from HST/COS Observations ∗

N. Arav; C. Chamberlain; G. A. Kriss; J. S. Kaastra; M. Cappi; M. Mehdipour; P. O. Petrucci; K. C. Steenbrugge; E. Behar; S. Bianchi; R. Boissay; G. Branduardi-Raymont; E. Costantini; J. C. Ely; J. Ebrero; L. Di Gesu; F. A. Harrison; S. Kaspi; J. Malzac; B. De Marco; G. Matt; K. P. Nandra; S. Paltani; B. M. Peterson; C. Pinto; G. Ponti; F. Pozo Nuñez; A. De Rosa; H. Seta; F. Ursini; C. P. De Vries; D. J. Walton; M. Whewell

doi:10.1051/0004-6361/201425302

Anatomy of the AGN in NGC 5548: II. the spatial, temporal, and physical nature of the outflow from HST/COS Observations ∗

N. Arav, C. Chamberlain, G. A. Kriss, J. S. Kaastra, M. Cappi, M. Mehdipour, P. O. Petrucci, K. C. Steenbrugge, E. Behar, S. Bianchi, R. Boissay, G. Branduardi-Raymont, E. Costantini, J. C. Ely, J. Ebrero, L. Di Gesu, F. A. Harrison, S. Kaspi, J. Malzac, B. De MarcoG. Matt, K. P. Nandra, S. Paltani, B. M. Peterson, C. Pinto, G. Ponti, F. Pozo Nuñez, A. De Rosa, H. Seta, F. Ursini, C. P. De Vries, D. J. Walton, M. Whewell

Technion - Israel Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Context. AGN outflows are thought to influence the evolution of their host galaxies and of super massive black holes. Our deep multiwavelength campaign on NGC 5548 has revealed a new, unusually strong X-ray obscuration, accompanied by broad UV absorption troughs observed for the first time in this object. The X-ray obscuration caused a dramatic decrease in the incident ionizing flux on the outflow that produces the long-studied narrow UV absorption lines in this AGN. The resulting data allowed us to construct a comprehensive physical, spatial, and temporal picture for this enduring AGN wind. Aims. We aim to determine the distance of the narrow UV outflow components from the central source, their total column-density, and the mechanism responsible for their observed absorption variability. Methods. We study the UV spectra acquired during the campaign, as well as from four previous epochs (1998-2011). Our main analysis tools are ionic column-density extraction techniques, photoionization models based on the code CLOUDY, and collisional excitation simulations. Results. A simple model based on a fixed total column-density absorber, reacting to changes in ionizing illumination, matches the very different ionization states seen in five spectroscopic epochs spanning 16 years. The main component of the enduring outflow is situated at 3.5 ± 1.1 pc from the central source, and its distance and number density are similar to those of the narrow-emitting-line region in this object. Three other components are situated between 5-70 pc and two are farther than 100 pc. The wealth of observational constraints and the anti-correlation between the observed X-ray and UV flux in the 2002 and 2013 epochs make our physical model a leading contender for interpreting trough variability data of quasar outflows. Conclusions. This campaign, in combination with prior UV and X-ray data, yields the first simple model that can explain the physical characteristics and the substantial variability observed in an AGN outflow.

Original language	English
Article number	A37
Journal	Astronomy and Astrophysics
Volume	577
DOIs	https://doi.org/10.1051/0004-6361/201425302
State	Published - 1 May 2015

Keywords

Galaxies: Seyfert

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

Access to Document

10.1051/0004-6361/201425302

Cite this

Arav, N., Chamberlain, C., Kriss, G. A., Kaastra, J. S., Cappi, M., Mehdipour, M., Petrucci, P. O., Steenbrugge, K. C., Behar, E., Bianchi, S., Boissay, R., Branduardi-Raymont, G., Costantini, E., Ely, J. C., Ebrero, J., Di Gesu, L., Harrison, F. A., Kaspi, S., Malzac, J., ... Whewell, M. (2015). Anatomy of the AGN in NGC 5548: II. the spatial, temporal, and physical nature of the outflow from HST/COS Observations ∗. Astronomy and Astrophysics, 577, Article A37. https://doi.org/10.1051/0004-6361/201425302

@article{101fce78260442648552d70f5ae1e5fb,

title = "Anatomy of the AGN in NGC 5548: II. the spatial, temporal, and physical nature of the outflow from HST/COS Observations ∗",

abstract = "Context. AGN outflows are thought to influence the evolution of their host galaxies and of super massive black holes. Our deep multiwavelength campaign on NGC 5548 has revealed a new, unusually strong X-ray obscuration, accompanied by broad UV absorption troughs observed for the first time in this object. The X-ray obscuration caused a dramatic decrease in the incident ionizing flux on the outflow that produces the long-studied narrow UV absorption lines in this AGN. The resulting data allowed us to construct a comprehensive physical, spatial, and temporal picture for this enduring AGN wind. Aims. We aim to determine the distance of the narrow UV outflow components from the central source, their total column-density, and the mechanism responsible for their observed absorption variability. Methods. We study the UV spectra acquired during the campaign, as well as from four previous epochs (1998-2011). Our main analysis tools are ionic column-density extraction techniques, photoionization models based on the code CLOUDY, and collisional excitation simulations. Results. A simple model based on a fixed total column-density absorber, reacting to changes in ionizing illumination, matches the very different ionization states seen in five spectroscopic epochs spanning 16 years. The main component of the enduring outflow is situated at 3.5 ± 1.1 pc from the central source, and its distance and number density are similar to those of the narrow-emitting-line region in this object. Three other components are situated between 5-70 pc and two are farther than 100 pc. The wealth of observational constraints and the anti-correlation between the observed X-ray and UV flux in the 2002 and 2013 epochs make our physical model a leading contender for interpreting trough variability data of quasar outflows. Conclusions. This campaign, in combination with prior UV and X-ray data, yields the first simple model that can explain the physical characteristics and the substantial variability observed in an AGN outflow.",

keywords = "Galaxies: Seyfert",

author = "N. Arav and C. Chamberlain and Kriss, {G. A.} and Kaastra, {J. S.} and M. Cappi and M. Mehdipour and Petrucci, {P. O.} and Steenbrugge, {K. C.} and E. Behar and S. Bianchi and R. Boissay and G. Branduardi-Raymont and E. Costantini and Ely, {J. C.} and J. Ebrero and {Di Gesu}, L. and Harrison, {F. A.} and S. Kaspi and J. Malzac and {De Marco}, B. and G. Matt and Nandra, {K. P.} and S. Paltani and Peterson, {B. M.} and C. Pinto and G. Ponti and {Pozo Nu{\~n}ez}, F. and {De Rosa}, A. and H. Seta and F. Ursini and {De Vries}, {C. P.} and Walton, {D. J.} and M. Whewell",

note = "Publisher Copyright: {\textcopyright} ESO, 2015.",

year = "2015",

month = may,

day = "1",

doi = "10.1051/0004-6361/201425302",

language = "الإنجليزيّة",

volume = "577",

journal = "Astronomy and Astrophysics",

issn = "0004-6361",

publisher = "EDP Sciences",

}

Arav, N, Chamberlain, C, Kriss, GA, Kaastra, JS, Cappi, M, Mehdipour, M, Petrucci, PO, Steenbrugge, KC, Behar, E, Bianchi, S, Boissay, R, Branduardi-Raymont, G, Costantini, E, Ely, JC, Ebrero, J, Di Gesu, L, Harrison, FA, Kaspi, S, Malzac, J, De Marco, B, Matt, G, Nandra, KP, Paltani, S, Peterson, BM, Pinto, C, Ponti, G, Pozo Nuñez, F, De Rosa, A, Seta, H, Ursini, F, De Vries, CP, Walton, DJ & Whewell, M 2015, 'Anatomy of the AGN in NGC 5548: II. the spatial, temporal, and physical nature of the outflow from HST/COS Observations ∗', Astronomy and Astrophysics, vol. 577, A37. https://doi.org/10.1051/0004-6361/201425302

TY - JOUR

T1 - Anatomy of the AGN in NGC 5548

T2 - II. the spatial, temporal, and physical nature of the outflow from HST/COS Observations ∗

AU - Arav, N.

AU - Chamberlain, C.

AU - Kriss, G. A.

AU - Kaastra, J. S.

AU - Cappi, M.

AU - Mehdipour, M.

AU - Petrucci, P. O.

AU - Steenbrugge, K. C.

AU - Behar, E.

AU - Bianchi, S.

AU - Boissay, R.

AU - Branduardi-Raymont, G.

AU - Costantini, E.

AU - Ely, J. C.

AU - Ebrero, J.

AU - Di Gesu, L.

AU - Harrison, F. A.

AU - Kaspi, S.

AU - Malzac, J.

AU - De Marco, B.

AU - Matt, G.

AU - Nandra, K. P.

AU - Paltani, S.

AU - Peterson, B. M.

AU - Pinto, C.

AU - Ponti, G.

AU - Pozo Nuñez, F.

AU - De Rosa, A.

AU - Seta, H.

AU - Ursini, F.

AU - De Vries, C. P.

AU - Walton, D. J.

AU - Whewell, M.

PY - 2015/5/1

Y1 - 2015/5/1

N2 - Context. AGN outflows are thought to influence the evolution of their host galaxies and of super massive black holes. Our deep multiwavelength campaign on NGC 5548 has revealed a new, unusually strong X-ray obscuration, accompanied by broad UV absorption troughs observed for the first time in this object. The X-ray obscuration caused a dramatic decrease in the incident ionizing flux on the outflow that produces the long-studied narrow UV absorption lines in this AGN. The resulting data allowed us to construct a comprehensive physical, spatial, and temporal picture for this enduring AGN wind. Aims. We aim to determine the distance of the narrow UV outflow components from the central source, their total column-density, and the mechanism responsible for their observed absorption variability. Methods. We study the UV spectra acquired during the campaign, as well as from four previous epochs (1998-2011). Our main analysis tools are ionic column-density extraction techniques, photoionization models based on the code CLOUDY, and collisional excitation simulations. Results. A simple model based on a fixed total column-density absorber, reacting to changes in ionizing illumination, matches the very different ionization states seen in five spectroscopic epochs spanning 16 years. The main component of the enduring outflow is situated at 3.5 ± 1.1 pc from the central source, and its distance and number density are similar to those of the narrow-emitting-line region in this object. Three other components are situated between 5-70 pc and two are farther than 100 pc. The wealth of observational constraints and the anti-correlation between the observed X-ray and UV flux in the 2002 and 2013 epochs make our physical model a leading contender for interpreting trough variability data of quasar outflows. Conclusions. This campaign, in combination with prior UV and X-ray data, yields the first simple model that can explain the physical characteristics and the substantial variability observed in an AGN outflow.

AB - Context. AGN outflows are thought to influence the evolution of their host galaxies and of super massive black holes. Our deep multiwavelength campaign on NGC 5548 has revealed a new, unusually strong X-ray obscuration, accompanied by broad UV absorption troughs observed for the first time in this object. The X-ray obscuration caused a dramatic decrease in the incident ionizing flux on the outflow that produces the long-studied narrow UV absorption lines in this AGN. The resulting data allowed us to construct a comprehensive physical, spatial, and temporal picture for this enduring AGN wind. Aims. We aim to determine the distance of the narrow UV outflow components from the central source, their total column-density, and the mechanism responsible for their observed absorption variability. Methods. We study the UV spectra acquired during the campaign, as well as from four previous epochs (1998-2011). Our main analysis tools are ionic column-density extraction techniques, photoionization models based on the code CLOUDY, and collisional excitation simulations. Results. A simple model based on a fixed total column-density absorber, reacting to changes in ionizing illumination, matches the very different ionization states seen in five spectroscopic epochs spanning 16 years. The main component of the enduring outflow is situated at 3.5 ± 1.1 pc from the central source, and its distance and number density are similar to those of the narrow-emitting-line region in this object. Three other components are situated between 5-70 pc and two are farther than 100 pc. The wealth of observational constraints and the anti-correlation between the observed X-ray and UV flux in the 2002 and 2013 epochs make our physical model a leading contender for interpreting trough variability data of quasar outflows. Conclusions. This campaign, in combination with prior UV and X-ray data, yields the first simple model that can explain the physical characteristics and the substantial variability observed in an AGN outflow.

KW - Galaxies: Seyfert

UR - http://www.scopus.com/inward/record.url?scp=84928914648&partnerID=8YFLogxK

U2 - 10.1051/0004-6361/201425302

DO - 10.1051/0004-6361/201425302

M3 - مقالة

SN - 0004-6361

VL - 577

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

M1 - A37

ER -

Anatomy of the AGN in NGC 5548: II. the spatial, temporal, and physical nature of the outflow from HST/COS Observations ∗

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