Spatially resolved Fe K spectroscopy of NGC 4945

Marinucci, Andrea; Bianchi, S.; Fabbiano, G.; Matt, Giorgio; Risaliti, G.; Nardini, E.; Wang, J.

doi:10.1093/mnras/stx1551

Cited by 45 publications

(53 citation statements)

References 57 publications

(79 reference statements)

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“…We interpret this relation as being due to reflection of nuclear emission by the star-forming gas that is typically distributed on galaxy scales. This observed relationship clearly indicates that nuclear emission from AGN can be strongly affected by gas and dust in the host galaxy (e.g., Hickox & Alexander 2018;Circosta et al 2019;D'Amato et al 2020) Considering this result in the context of previous discoveries of extended iron line limited in nearby CT AGNs (e.g., Bauer et al 2015;Gandhi et al 2015;Fabbiano et al 2017;Marinucci et al 2017), our analysis suggests that Fe line reflection on galaxy scales may be a widespread phenomenon in AGN at moderate to high redshifts. Furthermore, the presence of extended Fe Kα line emission in distant AGN presents a challenge in modeling of their X-ray spectra, which is often carried out assuming absorption and reflection as the result of a small (parsec-scale) torus rather than galaxy-scale material (e.g., Netzer 2015;Brightman et al 2017;Baloković et al 2018;Panagiotou & Walter 2019).…”

Section: Discussionsupporting

confidence: 80%

“…It is generally assumed that iron line photons are produced by reflection from obscuring material in a small-scale (∼1-100 pc) region by interacting with the dense circumnuclear "torus" (e.g., Shu et al 2010;Ricci et al 2014). However, recent Chandra X-ray Observatory studies of nearby obscured AGNs (e.g., Bauer et al 2015;Gandhi et al 2015;Fabbiano et al 2017;Marinucci et al 2017;Jones et al 2020;Yi et al 2021) also discovered kiloparsecscale diffuse emission of the iron line, suggesting additional reflection of the X-ray emission extending to galactic scales well beyond the parsec-scale "torus". These direct observations of the extended Fe Kα emission are limited to low-redshift obscured AGNs, for which the kiloparsec-scale structures can be resolved by Chandra.…”

Section: Introductionmentioning

confidence: 99%

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Chandra Observations of Excess Fe Kα Line Emission in Galaxies with High Star Formation Rates: X-Ray Reflection on Galaxy Scales?

Yan

Hickox

Chen

et al. 2021

ApJ

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Section: Discussionsupporting

confidence: 80%

Section: Introductionmentioning

confidence: 99%

Chandra Observations of Excess Fe Kα Line Emission in Galaxies with High Star Formation Rates: X-Ray Reflection on Galaxy Scales?

Yan

Hickox

Chen

et al. 2021

ApJ

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“…We produced a grid model for xspec using cloudy 17 (last described by Ferland et al 2017). It is an extension of the same model used in Bianchi et al (2010); Marinucci et al (2011Marinucci et al ( , 2017. Grid parameters are log U = [−2.00 : 4.00], step 0.25, log NH = [19.0 : 23.5], step 0.1.…”

Section: Obs Datementioning

confidence: 99%

Tracking the iron K α line and the ultra fast outflow in NGC 2992 at different accretion states

Marinucci

Bianchi

Braito

et al. 2018

Monthly Notices of the Royal Astronomical Society

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The Seyfert 2 galaxy NGC 2992 has been monitored eight times by XMM-Newton in 2010 and then observed again in 2013, while in 2015 it was simultaneously targeted by Swift and NuSTAR. XMM-Newton always caught the source in a faint state (2-10 keV fluxes ranging from 0.3 to 1.6×10 −11 erg cm −2 s −1 ) but NuSTAR showed an increase in the 2-10 keV flux up to 6×10 −11 erg cm −2 s −1 . We find possible evidence of an Ultra Fast Outflow with velocity v 1 = 0.21 ± 0.01c (detected at about 99% confidence level) in such a flux state. The UFO in NGC 2992 is consistent with being ejected at a few tens of gravitational radii only at accretion rates greater than 2% of the Eddington luminosity. The analysis of the low flux 2010/2013 XMM data allowed us to determine that the Iron Kα emission line complex in this object is likely the sum of three distinct components: a constant, narrow one due to reflection from cold, distant material (likely the molecular torus); a narrow, but variable one which is more intense in brighter observations and a broad relativistic one emitted in the innermost regions of the accretion disk, which has been detected only in the 2003 XMM observation.

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“…(X-ray luminosity: L X ∼ 4 × 10 43 erg s −1 ) buried in the Compton-thick nucleus (e.g., Marinucci et al 2017). The X-ray luminosity is highly variable with a time scale of ∼1 day, suggesting that the size scale of X-ray emitting region is no more than ∼0.001 pc (Madejski et al 2000), however it is uncertain whether this compact X-ray region is responsible for the decreased maser intensities over the four years.…”

Section: Tidbinbilla Observationsmentioning

confidence: 99%

Second Epoch ALMA Observations of 321 GHz Water Maser Emission in NGC 4945 and the Circinus Galaxy

Hagiwara,

Horiuchi,

Imanishi

et al. 2021

Preprint

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We present the results of second epoch ALMA observations of 321 GHz H 2 O emission toward two nearby active galactic nuclei, NGC 4945 and the Circinus galaxy, together with Tidbinbilla 70-m monitoring of their 22 GHz H 2 O masers. The two epoch ALMA observations show that the strengths of the 321 GHz emission are variable by a factor of at least a few, confirming a maser origin. In the second epoch, 321 GHz maser emission from NGC 4945 was not detected, while for the Circinus galaxy the flux density significantly increased and the velocity gradient and dispersion have been measured. With the velocity gradient spanning ∼110 km s −1 , we calculate the disk radius to be ∼28 pc, assuming disk rotation around the nucleus. We also estimate the dynamical mass within the central 28 pc to be 4.3 × 10 8 M ⊙ , which is significantly larger than the larger scale dynamical mass, suggesting the velocity gradient does not trace circular motions on that scale. The overall direction of the velocity gradient and velocity range of the blueshifted features are largely consistent with those of the 22 GHz maser emission in a thin disk with smaller radii of 0.1-0.4 pc and molecular outflows within ∼1 pc from the central engine of the galaxy, implying that the 321 GHz masers could trace part of the circumnuclear disk or the nuclear outflows.

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Spatially resolved Fe K spectroscopy of NGC 4945

Cited by 45 publications

References 57 publications

Chandra Observations of Excess Fe Kα Line Emission in Galaxies with High Star Formation Rates: X-Ray Reflection on Galaxy Scales?

Chandra Observations of Excess Fe Kα Line Emission in Galaxies with High Star Formation Rates: X-Ray Reflection on Galaxy Scales?

Tracking the iron K α line and the ultra fast outflow in NGC 2992 at different accretion states

Second Epoch ALMA Observations of 321 GHz Water Maser Emission in NGC 4945 and the Circinus Galaxy

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