The Ionized Gas and Nuclear Environment in NGC 3783. IV. Variability and Modeling of the 900 Kilosecond<i>Chandra</i>Spectrum

Netzer, H.; Kaspi, S.; Behar, E.; Brandt, W. N.; Chelouche, Doron; George, I. M.; Crenshaw, D. Michael; Gabel, J. R.; Hamann, F.; Kraemer, S. B.; Kriss, G. A.; Nandra, K.; Peterson, B. M.; Shields, J. C.; Turner, T. J.

doi:10.1086/379508

Cited by 195 publications

(348 citation statements)

References 33 publications

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“…Multi-waveband campaigns A&A 589, A76 (2016) provided the detailed broad-band spectrum and the timedependent behavior of X-ray outflows in a number of bright Seyfert-1 galaxies: NGC 7469 , NGC 5548 Kaastra et al 2004;Steenbrugge et al 2005), Mrk 509 Steenbrugge et al 2011;Kaastra et al 2011Kaastra et al , 2012Ebrero et al 2011;Arav et al 2012), IRAS 13449+2438 (Lee et al 2013;Di Gesu et al 2013, NGC 3783 (Kaspi et al 2002;Gabel et al 2003;Netzer et al 2003).…”

Section: Introductionmentioning

confidence: 99%

The thermal instability of the warm absorber in NGC 3783

Goosmann

Holczer

Mouchet

et al. 2016

A&A

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Context. The X-ray absorption spectra of active galactic nuclei frequently show evidence of winds with velocities in the order of 10 3 km s −1 extending up to 10 4 km s −1 in the case of ultra-fast outflows. At moderate velocities, these winds are often spectroscopically explained by assuming a number of absorbing clouds along the line of sight. In some cases it was shown that the absorbing clouds are in pressure equilibrium with each other. Aims. We assume a photo-ionized medium with a uniform total (gas+radiation) pressure. The irradiation causes the wind to be radiation pressure compressed (RPC). We attempt to reproduce the observed spectral continuum shape, ionic column densities, and X-ray absorption measure distribution (AMD) of the extensively observed warm absorber in the Seyfert galaxy NGC 3783. Methods. We compare the observational characteristics derived from the 900 ks Chandra observation to radiative transfer computations in pressure equilibrium using the radiative transfer code titan. We explore different values of the ionization parameter ξ of the incident flux and adjust the hydrogen-equivalent column density, N 0 H , of the warm absorber to match the observed soft X-ray continuum. From the resulting models we derive the column densities for a broad range of ionic species of iron and neon and a theoretical AMD that we compare to the observations. Results. We find an extension of the degeneracy between ξ and N 0 H for the constant pressure models previously discussed for NGC 3783. Including the ionic column densities of iron and neon in the comparison between observations and data we conclude that a range of ionization parameters between 4000 and 8000 erg cm s −1 is preferred. For the first time, we present theoretical AMDs for a constant pressure wind in NGC 3783 that correctly reproduces the observed level and is in approximate agreement with the observational appearance of an instability region. Conclusions. Using a variety of observational indicators, we confirm that the X-ray outflow of NGC 3783 can be described as an RPC medium in pressure equilibrium. The observed AMD agrees with a uniformly hot or a uniformly cold thermal state. The measured ionic column densities suggest that the wind tends to the uniformly cold thermal state. The occurrence of thermal instability in the warm absorber model may depend on the computational method and the spatial scale on which the radiative transfer is solved.

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Section: Introductionmentioning

confidence: 99%

The thermal instability of the warm absorber in NGC 3783

Goosmann

Holczer

Mouchet

et al. 2016

A&A

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“…Recently, more and more observations showed that the K-shell lines, namely 1s−2p transitions, from these low-ionization ions of Si can also be found in high-resolution X-ray spectra. Kaspi et al (2002) and Netzer et al (2003) detected the Si vii to Si xiv K lines in spiral galaxy Full Tables 3 and 4 are only available at the CDS via anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5) or via http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/566/A105 NGC 3783. Holczer et al (2010) reported Si vi to Si xiv absorption lines in the slow warm absorber of bright Seyfert 1 galaxy MCG 6-30-15.…”

Section: Introductionmentioning

confidence: 99%

K-shell energy levels and radiative rates for transitions in Si ix

Wei

Shi

Wang

et al. 2014

A&A

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Context. Accurate atomic data are needed to analyze the Si ix K-shell features in astrophysical X-ray spectra. Relative large discrepancies in the existing atomic data have impeded this progress.Aims. We present the accurate Si ix K-shell transition data, including K-shell energy levels, wavelengths, radiative rates, and oscillator strengths. Methods. The flexible atomic code (FAC), which is a fully relativistic atomic code with configuration interaction (CI) included, was employed to calculate these data. To investigate the CI effects, calculations with different configurations included were carried out.Results. The K-shell atomic data of Si ix transitions between 1s 2 2s 2 2p 2 , 1s 2 2s2p 3 , 1s 2 2p 4 , 1s2s 2 2p 3 , 1s2s2p 4 , and 1s2p 5 are reported.The accuracy of our data is demonstrated by comparing them with the available experimental measurements and theoretical calculations. The energy levels are accurate to 3.5 eV, the wavelengths to within 15 mÅ. For most transitions, the radiative rates an accuracy of 20%. The effects of CI from high-energy configurations were investigated as well.

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“…There are several sources for which the variability approach has been successful, but all have difficulties or large changes in flux. The Chandra data of NGC 3783 (Netzer et al 2003;Krongold et al 2005) were spread out over several months (with distance limits between 0.2 and 25 pc), while the XMM-Newton observations of this source ) occurred during a gradual rising phase without clear flux extrema, with no changes in the absorber properties leading to a minimum distance of 0.5-2 pc from the source, depending on the ionization component. In NGC 4051 the flux dropped by a factor of five (Steenbrugge et al 2009) leading to a 0.02-1 pc upper limit on the location of the absorbing gas.…”

Section: Introductionmentioning

confidence: 99%

The outflow in Mrk 509

Detmers¹,

Kaastra

Costantini³

et al. 2010

A&A

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We analyzed three XMM-Newton observations of the Seyfert 1 galaxy Mrk 509, with the goal of detecting small variations in the ionized outflow properties. Measurements such as these are limited by the quality of the cross-calibration between RGS, the best instrument for characterizing the spectrum, and EPIC-pn, the best instrument for characterizing the variability. For all three observations we are able to improve the relative calibration of RGS and pn consistently to 4%. In all observations we detect three different outflow components and, thanks to our accurate cross-calibration, we are able to detect small differences in the ionization parameter and column density in the highest ionized component of the outflow. This constrains the location of this component of the outflow to within 0.5 pc of the central source. Our method for modeling the relative effective area is not restricted to just this source and can in principle be extended to other types of sources as well.

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The Ionized Gas and Nuclear Environment in NGC 3783. IV. Variability and Modeling of the 900 KilosecondChandraSpectrum

Cited by 195 publications

References 33 publications

The thermal instability of the warm absorber in NGC 3783

The thermal instability of the warm absorber in NGC 3783

K-shell energy levels and radiative rates for transitions in Si ix

The outflow in Mrk 509

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