Implications of the Warm Corona and Relativistic Reflection Models for the Soft Excess in Mrk 509

We present the analysis of the first Nuclear Spectroscopic Telescope Array observations (∼220 ks), simultaneous with the last Suzaku observations (∼50 ks), of the active galactic nucleus of the bright Seyfert 1 galaxy Mrk 509. The time-averaged spectrum in the 1–79 keV X-ray band is dominated by a power-law continuum (Γ ∼ 1.8–1.9), a strong soft excess around 1 keV, and signatures of X-ray reflection in the form of Fe K emission (∼6.4 keV), an Fe K absorption edge (∼7.1 keV), and a Compton hump due to electron scattering (∼20–30 keV). We show that these data can be described by two very different prescriptions for the soft excess: a warm (kT ∼ 0.5–1 keV) and optically thick (τ ∼ 10–20) Comptonizing corona or a relativistically blurred ionized reflection spectrum from the inner regions of the accretion disk. While these two scenarios cannot be distinguished based on their fit statistics, we argue that the parameters required by the warm corona model are physically incompatible with the conditions of standard coronae. Detailed photoionization calculations show that even in the most favorable conditions, the warm corona should produce strong absorption in the observed spectrum. On the other hand, while the relativistic reflection model provides a satisfactory description of the data, it also requires extreme parameters, such as maximum black hole spin, a very low and compact hot corona, and a very high density for the inner accretion disk. Deeper observations of this source are thus necessary to confirm the presence of relativistic reflection and further understand the nature of its soft excess.

[1]  Mauricio Solar,et al.  Astronomical data analysis software and systems , 2018, Astron. Comput..

[2]  F. Ozel The Lynx X-ray Surveyor , 2018 .

[3]  Matteo Guainazzi,et al.  Concept of the X-ray Astronomy Recovery Mission , 2018, Astronomical Telescopes + Instrumentation.

[4]  Eric Burns,et al.  STROBE-X: a probe-class mission for x-ray spectroscopy and timing on timescales from microseconds to years , 2018, Astronomical Telescopes + Instrumentation.

[5]  S. Bianchi,et al.  Tracking the iron K α line and the ultra fast outflow in NGC 2992 at different accretion states , 2018, 1805.12149.

[6]  A. Kembhavi,et al.  A high-density relativistic reflection origin for the soft and hard X-ray excess emission from Mrk 1044 , 2018, Monthly Notices of the Royal Astronomical Society.

[7]  Javier A. García,et al.  The 1.5 Ms observing campaign on IRAS 13224-3809 - I. X-ray spectral analysis , 2018, 1804.00349.

[8]  O. Blaes,et al.  A simple framework for modelling the dependence of bulk Comptonization by turbulence on accretion disc parameters , 2018, 1804.00082.

[9]  Javier A. García,et al.  Alternative Explanations for Extreme Supersolar Iron Abundances Inferred from the Energy Spectrum of Cygnus X-1 , 2018, 1801.07267.

[10]  P. Gandhi,et al.  New Spectral Model for Constraining Torus Covering Factors from Broadband X-Ray Spectra of Active Galactic Nuclei , 2018, 1801.04938.

[11]  S. Bianchi,et al.  A NuSTAR census of coronal parameters in Seyfert galaxies , 2018, Astronomy & Astrophysics.

[12]  A. Fabian,et al.  X-ray reflection from the inner disc of the AGN Ton S180 , 2017, 1710.11166.

[13]  F. Christensen,et al.  A deep X-ray view of the bare AGN Ark 120: IV. XMM-Newton and NuSTAR spectra dominated by two temperature (warm, hot) Comptonization processes , 2017, 1707.08907.

[14]  Kristin K. Madsen,et al.  Optical instrument design of the high-energy x-ray probe (HEX-P) , 2018, Astronomical Telescopes + Instrumentation.

[15]  Toulouse,et al.  Testing warm Comptonization models for the origin of the soft X-ray excess in AGN , 2017, 1710.04940.

[16]  L. Ho,et al.  BAT AGN Spectroscopic Survey. V. X-Ray Properties of the Swift/BAT 70-month AGN Catalog , 2017, 1709.03989.

[17]  Javier A. García,et al.  The high-Eddington NLS1 Ark 564 has the coolest corona , 2017, 1703.09815.

[18]  Javier A. García,et al.  The response of relativistic outflowing gas to the inner accretion disk of a black hole , 2017, Nature.

[19]  Javier A. García,et al.  Evidence for Relativistic Disk Reflection in the Seyfert 1h Galaxy/ULIRG IRAS 05189–2524 Observed by NuSTAR and XMM-Newton , 2017, 1702.00073.

[20]  D. Walton,et al.  Broadband X-ray spectral analysis of the Seyfert 1 galaxy GRS 1734-292 , 2016, 1612.05871.

[21]  Matteo Guainazzi,et al.  IACHEC CROSS-CALIBRATION OF CHANDRA, NuSTAR, SWIFT, SUZAKU, XMM-NEWTON WITH 3C 273 ANDPKS 2155-304 , 2016, 1609.09032.

[22]  G. Matt,et al.  A DEEP X-RAY VIEW OF THE BARE AGN ARK 120. II. EVIDENCE FOR Fe K EMISSION TRANSIENTS , 2016, 1609.05210.

[23]  Esac,et al.  Multiwavelength campaign on Mrk 509 XV. A global modeling of the broad emission lines in the Optical, UV and X-ray bands , 2016, 1606.06579.

[24]  D. Walton,et al.  THE SOFT STATE OF CYGNUS X-1 OBSERVED WITH NuSTAR: A VARIABLE CORONA AND A STABLE INNER DISK , 2016, 1605.03966.

[25]  D. Walton,et al.  Normalizing a Relativistic Model of X-ray Reflection: The Definition of the Reflection Fraction and its Implementation in relxill , 2016, 1601.03771.

[26]  L. Keek,et al.  Revealing the accretion disc corona in Mrk 335 with multi-epoch X-ray spectroscopy , 2015, 1508.06994.

[27]  S. Paltani,et al.  A hard X-ray view of the soft excess in AGN , 2015, 1511.08168.

[28]  A. Marinucci,et al.  The coronal parameters of local Seyfert galaxies , 2015, 1511.01332.

[29]  Javier A. García,et al.  ON ESTIMATING THE HIGH-ENERGY CUTOFF IN THE X-RAY SPECTRA OF BLACK HOLES VIA REFLECTION SPECTROSCOPY , 2015, 1505.03616.

[30]  Javier A. García,et al.  NUSTAR AND SUZAKU X-RAY SPECTROSCOPY OF NGC 4151: EVIDENCE FOR REFLECTION FROM THE INNER ACCRETION DISK , 2015, 1504.07950.

[31]  P. Petrucci,et al.  Warm and optically thick dissipative coronae above accretion disks , 2015, 1504.03160.

[32]  Kristin K. Madsen,et al.  CALIBRATION OF THE NuSTAR HIGH-ENERGY FOCUSING X-RAY TELESCOPE , 2015, 1504.01672.

[33]  S. Paltani,et al.  Anatomy of the AGN in NGC 5548 - III. The high-energy view with NuSTAR and INTEGRAL , 2015, 1501.03426.

[34]  Yuan Liu,et al.  A direct comparison of X-ray spectral models for tori in active galactic nuclei , 2015, 1501.00557.

[35]  D. Walton,et al.  CORONAL PROPERTIES OF THE SEYFERT 1.9 GALAXY MCG–05-23-016 DETERMINED FROM HARD X-RAY SPECTROSCOPY WITH NuSTAR , 2014, 1412.5978.

[36]  S. Paltani,et al.  Multiwavelength campaign on Mrk 509 XIV. Chandra HETGS spectra , 2014, 1409.2021.

[37]  S. Paltani,et al.  Iron Kα emission in type-I and type-II active galactic nuclei , 2014, 1405.7575.

[38]  Laura Brenneman,et al.  THE BROAD-BAND X-RAY SPECTRUM OF IC 4329A FROM A JOINT NuSTAR/SUZAKU OBSERVATION , 2014, 1404.7486.

[39]  D. J. Walton,et al.  NuSTAR AND XMM-NEWTON OBSERVATIONS OF NGC 1365: EXTREME ABSORPTION VARIABILITY AND A CONSTANT INNER ACCRETION DISK , 2014, 1404.5620.

[40]  S. Paltani,et al.  Multiwavelength campaign on Mrk 509 XIII. Testing ionized-reflection models on Mrk 509 , 2014, 1404.3863.

[41]  D. Walton,et al.  THE HARD X-RAY PERSPECTIVE ON THE SOFT X-RAY EXCESS , 2014, 1402.3591.

[42]  Javier A. García,et al.  IMPROVED REFLECTION MODELS OF BLACK HOLE ACCRETION DISKS: TREATING THE ANGULAR DISTRIBUTION OF X-RAYS , 2013, 1312.3231.

[43]  E. Feigelson,et al.  The Hot and Energetic Universe: A White Paper presenting the science theme motivating the Athena+ mission , 2013, 1306.2307.

[44]  T. Dauser,et al.  X-RAY REFLECTED SPECTRA FROM ACCRETION DISK MODELS. III. A COMPLETE GRID OF IONIZED REFLECTION CALCULATIONS , 2013, 1303.2112.

[45]  D. Walton,et al.  A rapidly spinning supermassive black hole at the centre of NGC 1365 , 2013, Nature.

[46]  William W. Zhang,et al.  THE NUCLEAR SPECTROSCOPIC TELESCOPE ARRAY (NuSTAR) HIGH-ENERGY X-RAY MISSION , 2013, Astronomical Telescopes and Instrumentation.

[47]  T. Dauser,et al.  Irradiation of an accretion disc by a jet: general properties and implications for spin measurements of black holes , 2013, 1301.4922.

[48]  E. Miller,et al.  Cross-calibration of Suzaku/XIS and XMM-Newton/EPIC using galaxy clusters , 2013, 1301.2947.

[49]  D. J. Walton,et al.  Suzaku observations of 'bare' active galactic nuclei , 2012, 1210.4593.

[50]  S. Paltani,et al.  Multiwavelength campaign on Mrk 509 XI. Reverberation of the Fe K alpha line , 2012, 1207.0831.

[51]  S. Paltani,et al.  Multiwavelength campaign on Mrk 509 - XII. Broad band spectral analysis , 2012, 1209.6438.

[52]  D. Walton,et al.  Investigating the reflection contribution to the X-ray emission of Ton S180 , 2012, 1204.4451.

[53]  Chris Done,et al.  Intrinsic disc emission and the soft X‐ray excess in active galactic nuclei , 2011, 1107.5429.

[54]  S. Paltani,et al.  Multiwavelength campaign on Mrk 509 I. Variability and spectral energy distribution , 2011, 1107.0656.

[55]  S. Paltani,et al.  Multiwavelength campaign on Mrk 509 IV. Optical-UV-X-ray variability and the nature of the soft X-ray excess , 2011, 1107.0659.

[56]  K. Nandra,et al.  An XMM–Newton spectral survey of 12 μm selected galaxies – I. X-ray data , 2010, 1012.3345.

[57]  Javier A. García,et al.  X-RAY REFLECTED SPECTRA FROM ACCRETION DISK MODELS. I. CONSTANT DENSITY ATMOSPHERES , 2010, 1006.0485.

[58]  G. Palumbo,et al.  X-ray evidence for a mildly relativistic and variable outflow in the luminous Seyfert 1 galaxy Mrk 509 , 2009, 0906.2438.

[59]  G. Miniutti,et al.  Broad line emission from iron K- and L-shell transitions in the active galaxy 1H 0707-495 , 2009, Nature.

[60]  T. Yaqoob,et al.  An X-ray spectral model for Compton-thick toroidal reprocessors , 2009, 0905.3188.

[61]  Martin P. Ward,et al.  The Seyfert AGN RX J0136.9–3510 and the spectral state of super Eddington accretion flows , 2009, 0903.4698.

[62]  N. Schurch,et al.  RE J1034+396: the origin of the soft X-ray excess and quasi-periodic oscillation , 2008, 0807.4847.

[63]  L. Ho,et al.  The XMM–Newton view of AGN with intermediate-mass black holes , 2008, 0812.1652.

[64]  A. Fabian,et al.  Piecing together the X-ray background : bolometric corrections for active galactic nuclei , 2007, 0708.4308.

[65]  J. A. Gregory,et al.  X-Ray Imaging Spectrometer (XIS) on Board Suzaku , 2007 .

[66]  R. Griffiths,et al.  Precision Fe Kα and Fe Kβ Line Spectroscopy of the Seyfert 1.9 Galaxy NGC 2992 with Suzaku , 2007 .

[67]  M. Page,et al.  The XMM-Newton RGS spectrum of the high luminosity Seyfert 1 galaxy Markarian 509 , 2006, astro-ph/0609746.

[68]  A. Fabian,et al.  An Explanation for the soft X-ray excess in AGN , 2005, astro-ph/0511568.

[69]  S. Markoff,et al.  Going with the Flow: Can the Base of Jets Subsume the Role of Compact Accretion Disk Coronae? , 2005, astro-ph/0509028.

[70]  W. B. Burton,et al.  The Leiden/Argentine/Bonn (LAB) Survey of Galactic HI - Final data release of the combined LDS and IAR surveys with improved stray-radiation corrections , 2005, astro-ph/0504140.

[71]  R. Ross,et al.  A comprehensive range of X-ray ionized-reflection models , 2005, astro-ph/0501116.

[72]  N. Schartel,et al.  The XMM-Newton view of PG quasars - I. X-ray continuum and absorption , 2004, astro-ph/0411051.

[73]  B. M. Peterson,et al.  Central Masses and Broad-Line Region Sizes of Active Galactic Nuclei. II. A Homogeneous Analysis of a Large Reverberation-Mapping Database , 2004, astro-ph/0407299.

[74]  P. O’Brien,et al.  XMM-Newton EPIC observations of 21 low-redshift PG quasars , 2004, astro-ph/0404385.

[75]  M. Gierliński,et al.  Is the soft excess in AGN real , 2003, astro-ph/0312271.

[76]  France.,et al.  Universal spectral shape of high accretion rate AGN , 2003, astro-ph/0309270.

[77]  Cambridge,et al.  On characterizing the variability properties of X-ray light curves from active galaxies , 2003, astro-ph/0307420.

[78]  C. Urry,et al.  Active Galactic Nucleus Black Hole Masses and Bolometric Luminosities , 2002, astro-ph/0207249.

[79]  Cambridge,et al.  How the X-ray spectrum of a narrow-line Seyfert 1 galaxy may be reflection-dominated , 2002, astro-ph/0202297.

[80]  T. Kallman,et al.  Photoionization and High-Density Gas , 2013 .

[81]  Cambridge,et al.  The effects of a Comptonizing corona on the appearance of the reflection components in accreting black hole spectra , 2001, astro-ph/0108342.

[82]  R. McCray,et al.  Astrophysical Journal, in press Preprint typeset using L ATEX style emulateapj v. 26/01/00 ON THE ABSORPTION OF X-RAYS IN THE INTERSTELLAR MEDIUM , 2000 .

[83]  C. Done,et al.  The 1989 May outburst of the soft X‐ray transient GS 2023+338 (V404 Cyg) , 1999, astro-ph/9904304.

[84]  K. Leighly A Comprehensive Spectral and Variability Study of Narrow-Line Seyfert 1 Galaxies Observed by ASCA. II. Spectral Analysis and Correlations , 1999, astro-ph/9907294.

[85]  David A. Smith,et al.  A spectral decomposition of the variable optical, ultraviolet and X-ray continuum of NGC 5548 , 1998 .

[86]  A. Zdziarski,et al.  Broad-band γ-ray and X-ray spectra of NGC 4151 and their implications for physical processes and geometry , 1996, astro-ph/9607015.

[87]  G. Ferland,et al.  Atomic data for astrophysics. II. New analytic fits for photoionization cross sections of atoms and ions , 1996, astro-ph/9601009.

[88]  D. Schlegel,et al.  The IRAS 1.2 Jy Survey: Redshift Data , 1995, astro-ph/9502101.

[89]  A. Zdziarski,et al.  Black hole accretion disks with coronae , 1994 .

[90]  K. Nandra,et al.  Constraining the complexities in Seyfert X-ray spectra – an analysis of simultaneous observations with Ginga and ROSAT , 1994 .

[91]  F. Haardt Anisotropic Comptonization in thermal plasmas : spectral distribution in plane-parallel geometry , 1993 .

[92]  Andrew C. Fabian,et al.  X-ray reflection from cold matter in Active Galactic Nuclei and X-ray binaries , 1991 .

[93]  A. Laor Line Profiles from a Disk around a Rotating Black Hole , 1991 .

[94]  Martin Elvis,et al.  Constraints on quasar accretion disks from the optical/ultraviolet/soft X-ray big bump , 1987 .

[95]  D. Molteni,et al.  The X-Ray Spectrum of Markarian 509 Observed by EXOSAT , 1987 .

[96]  Keith A. Arnaud,et al.  EXOSAT observations of a strong soft X-ray excess in MKN 841. , 1985 .

[97]  J. Nousek,et al.  Observation of soft X-ray spectra from a Seyfert 1 and a narrow emission-line galaxy , 1985 .

[98]  R. Warwick,et al.  The soft X-ray spectrum of NGC 4151 , 1985 .

[99]  Timothy R. Kallman,et al.  Soft X-ray opacity in hot and photoionized gases , 1984 .

[100]  R. Weaver,et al.  The Comptonization of iron X-ray features in compact X-ray sources , 1978 .