Investigating the interplay between the coronal properties and the hard X-ray variability of active galactic nuclei with <i>NuSTAR</i>

Serafinelli, Roberto; De Rosa, Alessandra; Tortosa, Alessia; Stella, Luigi; Vagnetti, Fausto; Bianchi, Stefano; Ricci, Claudio; Kammoun, Elias; Petrucci, Pierre-Olivier; Middei, Riccardo; Lanzuisi, Giorgio; Marinucci, Andrea; Ursini, Francesco; Matt, Giorgio

doi:10.1051/0004-6361/202450777

A&A

2024

DOI: 10.1051/0004-6361/202450777

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Investigating the interplay between the coronal properties and the hard X-ray variability of active galactic nuclei with NuSTAR

Roberto Serafinelli,

Alessandra De Rosa,

Alessia Tortosa

et al.

Abstract: Active galactic nuclei (AGN) are extremely variable in the X-ray band down to very short timescales. However, the driver behind the X-ray variability is still poorly understood. Previous results suggest that the hot corona responsible for the primary Comptonized emission observed in AGN is expected to play an important role in driving the X-ray variability. In this work, we investigate the connection between the X-ray amplitude variability and the coronal physical parameters; namely, the temperature ($kT$) and… Show more

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Cited by 2 publications

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The XMM-Newton and NuSTAR view of IRASF11119+3257

Lanzuisi,

Matzeu,

Baldini

et al. 2024

A&A

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IRASF11119+3257 is an ultra-luminous infrared galaxy with a post-merger morphology, hosting a type-1 quasar at z=0.189. It shows a prominent ultra-fast outflow (UFO) absorption feature ($ in its 2013 spectrum. This is the first system in which the energy released by the UFO was compared to that of the known galaxy-scale molecular outflow to investigate the mechanism driving active galactic nuclei (AGN) feedback. In 2021, we obtained the first long look of the target, coordinated with a simultaneous observation, with the goal of constraining the broad band continuum and the nuclear wind physical properties and energetics with an unprecedented accuracy. The new high-quality data allowed us to clearly detect at a confidence level $P>99.8<!PCT!>$ multiple absorption features associated with the known UFO at the 9.1 and 11.0 keV rest frames. Furthermore, an emission plus absorption feature at $1.1-1.3$ keV reveals the presence of a blueshifted P-Cygni profile in the soft band. We associate the two hard band features with blends of FeXXV and FeXXVI and line pairs and infer a large column ($ $ cmsq ) of highly ionized ($log gas outflowing at $ The 1.3 keV absorption line can be associated with a blend of Fe and Ne transitions, produced by a lower column ($ $ cmsq ) and ionization ($log gas component outflowing at the same speed. Using a radiative-transfer disk wind model to fit the highly ionized UFO, we derive a mass outflow rate comparable with the mass accretion rate and the Eddington limit ($ macc and $ medd ), and kinetic energy ($ and $ and momentum flux ($ among the highest reported in the literature. We measured an extremely low high-energy cutoff ($ keV). This and several other cases in the literature suggest that a steep X-ray continuum may be related to the formation of powerful winds. We also analyzed the ionized OIII component of the large-scale outflow through optical spectroscopy and derived a large outflow velocity ($ km/s) and energetics comparable with the large-scale molecular outflows. Finally, we observe a trend of decreasing outflow velocity from forbidden optical emission lines of decreasing ionization levels, interpreted as the outflow decelerating at large distances from the ionizing source. The lack of a significant momentum boost between the nuclear UFO and the different phases of the large-scale outflow, observed in IRASF11119 and in a growing number of similar sources, can be explained by (i) a momentum-driven expansion, (ii) an inefficient coupling of the UFO with the host interstellar medium, or (iii) by repeated energy-driven expansion episodes with a low duty cycle, that average out on long timescales to produce the observed large-scale outflow.

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The XMM-Newton and NuSTAR view of IRASF11119+3257

Lanzuisi,

Matzeu,

Baldini

et al. 2024

A&A

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A second view on the X-ray polarization of NGC 4151 with IXPE

Gianolli,

Bianchi,

Kammoun

et al. 2024

A&A

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We report on the second observing program of the active galactic nucleus NGC 4151 with simultaneous Imaging X-ray Polarimetry Explorer (IXPE; 750 ks) (sim 60 ks) XMM-Newton (sim 75 ks), and NICER (sim 65 ks) pointings. NGC 4151 is the first Type-1 radio-quiet Seyfert galaxy with constrained polarization properties for the X-ray corona. Despite the lower flux state in which the source was re-observed and the resulting higher contribution of the constant reflection component in the energy band, our results are in agreement with the first detection. From polarimetric analysis, a polarization degree Pi = 4.7 pm 1.3<!PCT!> and polarization angle Psi = 77 pm 8 east of north (68<!PCT!> c.l.) were derived in the 2.0 -- 8.0 keV energy range. Combining the two observations leads to polarization properties that are more constrained than those of the individual detections, showing Pi = 4.5 pm 0.9<!PCT!> and Psi = 81 pm 6 (with a detection significance of sim 4.6sigma ). The observed polarization angle aligns very well with the radio emission in this source, supporting, together with the significant polarization degree, a slab or wedge geometry for the X-ray corona. However, a switch in the polarization angle at low energies ($37 in the 2-3.5 keV bin) suggests the presence of another component. When it is included in the spectro-polarimetric fit, a high polarization degree disfavors an interpretation in terms of a leakage through the absorbers, instead pointing to scattering from some kind of mirror.

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Investigating the interplay between the coronal properties and the hard X-ray variability of active galactic nuclei with NuSTAR

Cited by 2 publications

References 82 publications

The XMM-Newton and NuSTAR view of IRASF11119+3257

The XMM-Newton and NuSTAR view of IRASF11119+3257

A second view on the X-ray polarization of NGC 4151 with IXPE

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