AGN STORM 2. IX. Studying the dynamics of the ionized obscurer in Mrk 817 with high-resolution X-ray spectroscopy

Fatima Zaidouni; Erin Kara; Peter Kosec; Missagh Mehdipour; Daniele Rogantini; Gerard A. Kriss; Ehud Behar; Jelle Kaastra; Aaron J. Barth; Edward M. Cackett; Gisella De Rosa; Yasaman Homayouni; Keith Horne; Hermine Landt; Nahum Arav; Misty C. Bentz; Michael S. Brotherton; Elena Dalla Bontà; Maryam Dehghanian; Gary J. Ferland; Carina Fian; Jonathan Gelbord; Michael R. Goad; Diego H. González Buitrago; Catherine J. Grier; Patrick B. Hall; Chen Hu; Dragana Ilić; Shai Kaspi; Christopher S. Kochanek; Andjelka B. Kovačević; Daniel Kynoch; Collin Lewin; John Montano; Hagai Netzer; Jack M. M. Neustadt; Christos Panagiotou; Ethan R. Partington; Rachel Plesha; Luka Č. Popović; Daniel Proga; Thaisa Storchi-Bergmann; David Sanmartim; Matthew R. Siebert; Matilde Signorini; Marianne Vestergaard; Tim Waters; Ying Zu

doi:10.3847/1538-4357/ad6771

AGN STORM 2. IX. Studying the dynamics of the ionized obscurer in Mrk 817 with high-resolution X-ray spectroscopy

Fatima Zaidouni, Erin Kara, Peter Kosec, Missagh Mehdipour, Daniele Rogantini, Gerard A. Kriss, Ehud Behar, Jelle Kaastra, Aaron J. Barth, Edward M. Cackett, Gisella De Rosa, Yasaman Homayouni, Keith Horne, Hermine Landt, Nahum Arav, Misty C. Bentz, Michael S. Brotherton, Elena Dalla Bontà, Maryam Dehghanian, Gary J. FerlandCarina Fian, Jonathan Gelbord, Michael R. Goad, Diego H. González Buitrago, Catherine J. Grier, Patrick B. Hall, Chen Hu, Dragana Ilić, Shai Kaspi, Christopher S. Kochanek, Andjelka B. Kovačević, Daniel Kynoch, Collin Lewin, John Montano, Hagai Netzer, Jack M. M. Neustadt, Christos Panagiotou, Ethan R. Partington, Rachel Plesha, Luka Č. Popović, Daniel Proga, Thaisa Storchi-Bergmann, David Sanmartim, Matthew R. Siebert, Matilde Signorini, Marianne Vestergaard, Tim Waters, Ying Zu

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

Abstract

We present the results of the XMM-Newton and NuSTAR observations taken as part of the ongoing, intensive multiwavelength monitoring program of the Seyfert 1 galaxy Mrk 817 by the AGN Space Telescope and Optical Reverberation Mapping 2 (AGN STORM 2) Project. The campaign revealed an unexpected and transient obscuring outflow, never before seen in this source. Of our four XMM-Newton/NuSTAR epochs, one fortuitously taken during a bright X-ray state has strong narrow absorption lines in the high-resolution grating spectra. From these absorption features, we determine that the obscurer is in fact a multiphase ionized wind with an outflow velocity of ∼5200 km s−1, and for the first time find evidence for a lower ionization component with the same velocity observed in absorption features in the contemporaneous Hubble Space Telescope spectra. This indicates that the UV absorption troughs may be due to dense clumps embedded in diffuse, higher ionization gas responsible for the X-ray absorption lines of the same velocity. We observe variability in the shape of the absorption lines on timescales of hours, placing the variable component at roughly 1000 R g if attributed to transverse motion along the line of sight. This estimate aligns with independent UV measurements of the distance to the obscurer suggesting an accretion disk wind at the inner broad line region. We estimate that it takes roughly 200 days for the outflow to travel from the disk to our line of sight, consistent with the timescale of the outflow's column density variations throughout the campaign.

Original language	English
Article number	91
Number of pages	16
Journal	The Astrophysical Journal
Volume	974
Issue number	1
Early online date	7 Oct 2024
DOIs	https://doi.org/10.3847/1538-4357/ad6771
Publication status	Published - 10 Oct 2024

Keywords

Reverberation mapping
High energy astrophysics
High resolution spectroscopy
X-ray active galactic nuclei
X-ray astronomy
Active galactic nuclei
Astrophysical black holes
Seyfert galaxies

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10.3847/1538-4357/ad6771Licence: CC BY

Zaidouni-2024-AGN-STORM-2-IX-ApJ-974-1-91-CCBY
Copyright © 2024. The Author(s). Published by the American Astronomical Society. Original content from this work may be used under the terms of the Creative Commons Attribution 4.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.
Final published version, 1.66 MBLicence: CC BY

Mrk 817 Spectra
Homayouni, Y. (Creator), STScI/MAST, 2022
DOI: 10.17909/10sp-zt74
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Zaidouni, F., Kara, E., Kosec, P., Mehdipour, M., Rogantini, D., Kriss, G. A., Behar, E., Kaastra, J., Barth, A. J., Cackett, E. M., De Rosa, G., Homayouni, Y., Horne, K., Landt, H., Arav, N., Bentz, M. C., Brotherton, M. S., Dalla Bontà, E., Dehghanian, M., ... Zu, Y. (2024). AGN STORM 2. IX. Studying the dynamics of the ionized obscurer in Mrk 817 with high-resolution X-ray spectroscopy. The Astrophysical Journal, 974(1), Article 91. https://doi.org/10.3847/1538-4357/ad6771

@article{83fc9fd2c99148cbbb86707e58b39eab,

title = "AGN STORM 2. IX. Studying the dynamics of the ionized obscurer in Mrk 817 with high-resolution X-ray spectroscopy",

abstract = "We present the results of the XMM-Newton and NuSTAR observations taken as part of the ongoing, intensive multiwavelength monitoring program of the Seyfert 1 galaxy Mrk 817 by the AGN Space Telescope and Optical Reverberation Mapping 2 (AGN STORM 2) Project. The campaign revealed an unexpected and transient obscuring outflow, never before seen in this source. Of our four XMM-Newton/NuSTAR epochs, one fortuitously taken during a bright X-ray state has strong narrow absorption lines in the high-resolution grating spectra. From these absorption features, we determine that the obscurer is in fact a multiphase ionized wind with an outflow velocity of ∼5200 km s−1, and for the first time find evidence for a lower ionization component with the same velocity observed in absorption features in the contemporaneous Hubble Space Telescope spectra. This indicates that the UV absorption troughs may be due to dense clumps embedded in diffuse, higher ionization gas responsible for the X-ray absorption lines of the same velocity. We observe variability in the shape of the absorption lines on timescales of hours, placing the variable component at roughly 1000 R g if attributed to transverse motion along the line of sight. This estimate aligns with independent UV measurements of the distance to the obscurer suggesting an accretion disk wind at the inner broad line region. We estimate that it takes roughly 200 days for the outflow to travel from the disk to our line of sight, consistent with the timescale of the outflow's column density variations throughout the campaign.",

keywords = "Reverberation mapping, High energy astrophysics, High resolution spectroscopy, X-ray active galactic nuclei, X-ray astronomy, Active galactic nuclei, Astrophysical black holes, Seyfert galaxies",

author = "Fatima Zaidouni and Erin Kara and Peter Kosec and Missagh Mehdipour and Daniele Rogantini and Kriss, {Gerard A.} and Ehud Behar and Jelle Kaastra and Barth, {Aaron J.} and Cackett, {Edward M.} and {De Rosa}, Gisella and Yasaman Homayouni and Keith Horne and Hermine Landt and Nahum Arav and Bentz, {Misty C.} and Brotherton, {Michael S.} and {Dalla Bont{\`a}}, Elena and Maryam Dehghanian and Ferland, {Gary J.} and Carina Fian and Jonathan Gelbord and Goad, {Michael R.} and {Gonz{\'a}lez Buitrago}, {Diego H.} and Grier, {Catherine J.} and Hall, {Patrick B.} and Chen Hu and Dragana Ili{\'c} and Shai Kaspi and Kochanek, {Christopher S.} and Kova{\v c}evi{\'c}, {Andjelka B.} and Daniel Kynoch and Collin Lewin and John Montano and Hagai Netzer and Neustadt, {Jack M. M.} and Christos Panagiotou and Partington, {Ethan R.} and Rachel Plesha and {{\v C}. Popovi{\'c}}, Luka and Daniel Proga and Thaisa Storchi-Bergmann and David Sanmartim and Siebert, {Matthew R.} and Matilde Signorini and Marianne Vestergaard and Tim Waters and Ying Zu",

note = "Funding: H.L. acknowledges a Daphne Jackson Fellowship sponsored by the Science and Technology Facilities Council (STFC), UK.",

year = "2024",

month = oct,

day = "10",

doi = "10.3847/1538-4357/ad6771",

language = "English",

volume = "974",

journal = "The Astrophysical Journal",

issn = "0004-637X",

publisher = "American Astronomical Society",

number = "1",

}

Zaidouni, F, Kara, E, Kosec, P, Mehdipour, M, Rogantini, D, Kriss, GA, Behar, E, Kaastra, J, Barth, AJ, Cackett, EM, De Rosa, G, Homayouni, Y, Horne, K, Landt, H, Arav, N, Bentz, MC, Brotherton, MS, Dalla Bontà, E, Dehghanian, M, Ferland, GJ, Fian, C, Gelbord, J, Goad, MR, González Buitrago, DH, Grier, CJ, Hall, PB, Hu, C, Ilić, D, Kaspi, S, Kochanek, CS, Kovačević, AB, Kynoch, D, Lewin, C, Montano, J, Netzer, H, Neustadt, JMM, Panagiotou, C, Partington, ER, Plesha, R, Č. Popović, L, Proga, D, Storchi-Bergmann, T, Sanmartim, D, Siebert, MR, Signorini, M, Vestergaard, M, Waters, T & Zu, Y 2024, 'AGN STORM 2. IX. Studying the dynamics of the ionized obscurer in Mrk 817 with high-resolution X-ray spectroscopy', The Astrophysical Journal, vol. 974, no. 1, 91. https://doi.org/10.3847/1538-4357/ad6771

TY - JOUR

T1 - AGN STORM 2. IX. Studying the dynamics of the ionized obscurer in Mrk 817 with high-resolution X-ray spectroscopy

AU - Zaidouni, Fatima

AU - Kara, Erin

AU - Kosec, Peter

AU - Mehdipour, Missagh

AU - Rogantini, Daniele

AU - Kriss, Gerard A.

AU - Behar, Ehud

AU - Kaastra, Jelle

AU - Barth, Aaron J.

AU - Cackett, Edward M.

AU - De Rosa, Gisella

AU - Homayouni, Yasaman

AU - Horne, Keith

AU - Landt, Hermine

AU - Arav, Nahum

AU - Bentz, Misty C.

AU - Brotherton, Michael S.

AU - Dalla Bontà, Elena

AU - Dehghanian, Maryam

AU - Ferland, Gary J.

AU - Fian, Carina

AU - Gelbord, Jonathan

AU - Goad, Michael R.

AU - González Buitrago, Diego H.

AU - Grier, Catherine J.

AU - Hall, Patrick B.

AU - Hu, Chen

AU - Ilić, Dragana

AU - Kaspi, Shai

AU - Kochanek, Christopher S.

AU - Kovačević, Andjelka B.

AU - Kynoch, Daniel

AU - Lewin, Collin

AU - Montano, John

AU - Netzer, Hagai

AU - Neustadt, Jack M. M.

AU - Panagiotou, Christos

AU - Partington, Ethan R.

AU - Plesha, Rachel

AU - Č. Popović, Luka

AU - Proga, Daniel

AU - Storchi-Bergmann, Thaisa

AU - Sanmartim, David

AU - Siebert, Matthew R.

AU - Signorini, Matilde

AU - Vestergaard, Marianne

AU - Waters, Tim

AU - Zu, Ying

N1 - Funding: H.L. acknowledges a Daphne Jackson Fellowship sponsored by the Science and Technology Facilities Council (STFC), UK.

PY - 2024/10/10

Y1 - 2024/10/10

N2 - We present the results of the XMM-Newton and NuSTAR observations taken as part of the ongoing, intensive multiwavelength monitoring program of the Seyfert 1 galaxy Mrk 817 by the AGN Space Telescope and Optical Reverberation Mapping 2 (AGN STORM 2) Project. The campaign revealed an unexpected and transient obscuring outflow, never before seen in this source. Of our four XMM-Newton/NuSTAR epochs, one fortuitously taken during a bright X-ray state has strong narrow absorption lines in the high-resolution grating spectra. From these absorption features, we determine that the obscurer is in fact a multiphase ionized wind with an outflow velocity of ∼5200 km s−1, and for the first time find evidence for a lower ionization component with the same velocity observed in absorption features in the contemporaneous Hubble Space Telescope spectra. This indicates that the UV absorption troughs may be due to dense clumps embedded in diffuse, higher ionization gas responsible for the X-ray absorption lines of the same velocity. We observe variability in the shape of the absorption lines on timescales of hours, placing the variable component at roughly 1000 R g if attributed to transverse motion along the line of sight. This estimate aligns with independent UV measurements of the distance to the obscurer suggesting an accretion disk wind at the inner broad line region. We estimate that it takes roughly 200 days for the outflow to travel from the disk to our line of sight, consistent with the timescale of the outflow's column density variations throughout the campaign.

AB - We present the results of the XMM-Newton and NuSTAR observations taken as part of the ongoing, intensive multiwavelength monitoring program of the Seyfert 1 galaxy Mrk 817 by the AGN Space Telescope and Optical Reverberation Mapping 2 (AGN STORM 2) Project. The campaign revealed an unexpected and transient obscuring outflow, never before seen in this source. Of our four XMM-Newton/NuSTAR epochs, one fortuitously taken during a bright X-ray state has strong narrow absorption lines in the high-resolution grating spectra. From these absorption features, we determine that the obscurer is in fact a multiphase ionized wind with an outflow velocity of ∼5200 km s−1, and for the first time find evidence for a lower ionization component with the same velocity observed in absorption features in the contemporaneous Hubble Space Telescope spectra. This indicates that the UV absorption troughs may be due to dense clumps embedded in diffuse, higher ionization gas responsible for the X-ray absorption lines of the same velocity. We observe variability in the shape of the absorption lines on timescales of hours, placing the variable component at roughly 1000 R g if attributed to transverse motion along the line of sight. This estimate aligns with independent UV measurements of the distance to the obscurer suggesting an accretion disk wind at the inner broad line region. We estimate that it takes roughly 200 days for the outflow to travel from the disk to our line of sight, consistent with the timescale of the outflow's column density variations throughout the campaign.

KW - Reverberation mapping

KW - High energy astrophysics

KW - High resolution spectroscopy

KW - X-ray active galactic nuclei

KW - X-ray astronomy

KW - Active galactic nuclei

KW - Astrophysical black holes

KW - Seyfert galaxies

U2 - 10.3847/1538-4357/ad6771

DO - 10.3847/1538-4357/ad6771

M3 - Article

SN - 0004-637X

VL - 974

JO - The Astrophysical Journal

JF - The Astrophysical Journal

IS - 1

M1 - 91

ER -

AGN STORM 2. IX. Studying the dynamics of the ionized obscurer in Mrk 817 with high-resolution X-ray spectroscopy

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Mrk 817 Spectra

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