Your search keyword '"Middei, R"' showing total 26 results

1. X-ray view of dissipative warm corona in active galactic nuclei.

Author

Palit, B., Różańska, A., Petrucci, P. O., Gronkiewicz, D., Barnier, S., Bianchi, S., Ballantyne, D. R., Gianolli, V. E., Middei, R., Belmont, R., and Ursini, F.

Subjects

ACTIVE galactic nuclei, SEYFERT galaxies, SOFT X rays, ACTIVE galaxies, RADIATIVE transfer, ACCRETION disks

Abstract

Context. Detections of the X-ray spectra of active galactic nuclei (AGNs) typically reveal a noticeable excess of soft X-rays beyond the extrapolation of the power-law trend observed between 2 and 10 keV. However, the cause of this surplus remains unclear. In the scenario of soft Comptonization, observations suggest a warm corona temperature, ranging from 0.1 to 1 keV, and an optical depth of approximately 10 to 30. Furthermore, according to radiative constraints derived from spectral analyses employing Comptonization models, it has been suggested that most of the accretion power is released within the warm corona. At the same time, the disk beneath it is largely non-dissipative, mainly emitting the reprocessed radiation from the corona. Aims. We tested the dissipative warm corona model using the radiative transfer code TITAN-NOAR on a sample of 82 XMM-Newton EPIC-pn observations of 21 AGNs. Based on a spectral modeling of the X-ray data, we aim to estimate the total amount of internal heating inside the warm corona on top of the accretion disk. Methods. By modeling the 0.3–10 keV EPIC-pn spectra with the TITAN-NOAR model component, we estimated the internal heating and optical depth of the warm corona and checked their correlations with such global parameters as the hot corona spectral index, black hole mass, and accretion rate. From the model normalization, we computed the radial extent of the warm corona on top of the cold accretion disk. Results. Our model infers the presence of dissipative warm corona, with optical depths distributed across the range of ∼6–30 and a total internal heating in the range of ∼1–29 × 10−23 erg s−1 cm3. We do not detect any variation between these properties and global properties, such as the black hole mass and accretion rate. The extent of the warm corona is spread across a broad range, from 7–408 gravitational radii, and we find that the warm corona is more extended for higher accretion rates. Conclusions. Soft excess emission is ubiquitous across a wide mass range and accretion rate in AGNs. We confirm that the warm corona responsible for producing the soft X-ray excess is highly dissipative with greater optical depths being associated with lower internal heating and vice versa. The cold standard accretion disk regulates the extent of the warm corona. [ABSTRACT FROM AUTHOR]

Published

2024

2. Unveiling energy pathways in AGN accretion flows with the warm corona model for the soft excess.

Author

Ballantyne, D R, Sudhakar, V, Fairfax, D, Bianchi, S, Czerny, B, De Rosa, A, De Marco, B, Middei, R, Palit, B, Petrucci, P -O, Różańska, A, and Ursini, F

Subjects

ACCRETION disks, BLACK holes, ENERGY dissipation, SEYFERT galaxies, ACTIVE galaxies, ACTIVE galactic nuclei, SOLAR corona

Abstract

The soft excess in active galactic nuclei (AGNs) may arise through a combination of relativistic reflection and the effects of a warm corona at the surface of the accretion disc. Detailed examination of the soft excess can therefore constrain models of the transport and dissipation of accretion energy. Here, we analyse 34 XMM–Newton observations from 14 type 1 AGNs with the reXcor spectral model that self-consistently combines emission from a warm corona with relativistic reflection assuming a lamppost corona. The model divides accretion energy between the disc, the warm corona, and the lamppost. The XMM–Newton observations span a factor of 188 in Eddington ratio (λobs) and 350 in black hole mass, and we find that a warm corona is a significant contributor to the soft excess for 13 of the 14 AGNs with a mean warm corona heating fraction of 0.51. The reXcor fits reveal that the fraction of accretion energy dissipated in the lamppost is anticorrelated with λobs. In contrast, the relationship between λobs and both the optical depth and the heating fraction of the warm corona appears to transition from an anticorrelation to a correlation at λobs,t ≈ 0.15. Therefore, at least one other physical process in addition to the accretion rate is needed to explain the evolution of the warm corona. Overall, we find that a warm corona appears to be a crucial depository of accretion energy in AGNs across a broad range of λobs and black hole mass. [ABSTRACT FROM AUTHOR]

Published

2024

3. The geometry of the hot corona in MCG-05-23-16 constrained by X-ray polarimetry.

Author

Tagliacozzo, D, Marinucci, A, Ursini, F, Matt, G, Bianchi, S, Baldini, L, Barnouin, T, Cavero Rodriguez, N, De Rosa, A, Di Gesu, L, Dovčiak, M, Harper, D, Ingram, A, Karas, V, Kim, D E, Krawczynski, H, Madejski, G, Marin, F, Middei, R, and Marshall, H L

Subjects

POLARIMETRY, ACTIVE galactic nuclei, MONTE Carlo method, X-rays, GEOMETRY, X-ray imaging

Abstract

We report on the second observation of the radio-quiet active galactic nucleus MCG-05-23-16 performed with the Imaging X-ray Polarimetry Explorer (IXPE). The observation started on 2022 November 6 for a net observing time of 640 ks, and was partly simultaneous with NuSTAR (86 ks). After combining these data with those obtained in the first IXPE pointing on 2022 May (simultaneous with XMM–Newton and NuSTAR) we find a 2–8 keV polarization degree Π = 1.6 ± 0.7 (at 68 per cent confidence level), which corresponds to an upper limit Π = 3.2 per cent (at 99 per cent confidence level). We then compare the polarization results with Monte Carlo simulations obtained with the monk code, with which different coronal geometries have been explored (spherical lamppost, conical, slab, and wedge). Furthermore, the allowed range of inclination angles is found for each geometry. If the best-fitting inclination value from a spectroscopic analysis is considered, a cone-shaped corona along the disc axis is disfavoured. [ABSTRACT FROM AUTHOR]

Published

2023

4. Uncovering the geometry of the hot X-ray corona in the Seyfert galaxy NGC 4151 with IXPE.

Author

Gianolli, V E, Kim, D E, Bianchi, S, Agís-González, B, Madejski, G, Marin, F, Marinucci, A, Matt, G, Middei, R, Petrucci, P-O, Soffitta, P, Tagliacozzo, D, Tombesi, F, Ursini, F, Barnouin, T, De Rosa, A, Di Gesu, L, Ingram, A, Loktev, V, and Panagiotou, C

Subjects

SEYFERT galaxies, POLARIMETRY, ACTIVE galactic nuclei, X-rays, MONTE Carlo method, BREWSTER'S angle

Abstract

We present an X-ray spectropolarimetric analysis of the bright Seyfert galaxy NGC 4151. The source has been observed with the Imaging X-ray Polarimetry Explorer (IXPE) for 700 ks, complemented with simultaneous XMM–Newton (50 ks) and NuSTAR (100 ks) pointings. A polarization degree Π = 4.9 ± 1.1 per cent and angle Ψ = 86° ± 7° east of north (68 per cent confidence level) are measured in the 2–8 keV energy range. The spectropolarimetric analysis shows that the polarization could be entirely due to reflection. Given the low reflection flux in the IXPE band, this requires, however, a reflection with a very large (>38 per cent) polarization degree. Assuming more reasonable values, a polarization degree of the hot corona ranging from ∼4 to ∼8 per cent is found. The observed polarization degree excludes a 'spherical' lamppost geometry for the corona, suggesting instead a slab -like geometry, possibly a wedge , as determined via Monte Carlo simulations. This is further confirmed by the X-ray polarization angle, which coincides with the direction of the extended radio emission in this source, supposed to match the disc axis. NGC 4151 is the first active galactic nucleus with an X-ray polarization measure for the corona, illustrating the capabilities of X-ray polarimetry and IXPE in unveiling its geometry. [ABSTRACT FROM AUTHOR]

Published

2023

5. X‐HESS: A large sample of highly accreting serendipitous AGN under the XMM‐Newton microscope.

Author

Laurenti, M., Tombesi, F., Vagnetti, F., Piconcelli, E., Guainazzi, M., and Middei, R.

Subjects

SUPERMASSIVE black holes, ACTIVE galactic nuclei, SOFT X rays, MICROSCOPES, ACTIVE galaxies

Abstract

The bulk of X‐ray spectroscopic studies of active galactic nuclei (AGN) are focused on local (z<0.1$$ z<0.1 $$) sources with low‐to‐moderate (<0.3) Eddington ratio (λEdd$$ {\lambda}_{\mathrm{Edd}} $$). It is then mandatory to overcome this limitation and improve our understanding of highly accreting AGN. In this work, we present the preliminary results from the analysis of a sample of ∼70$$ \sim 70 $$ high‐λEdd$$ {\lambda}_{\mathrm{Edd}} $$ radio‐quiet AGN at 0.06≤z≤3.3$$ 0.06\le z\le 3.3 $$, based on the 10th release of the XMM‐Newton serendipitous source catalog, that we named as XMM‐Newton High‐Eddington Serendipitous AGN Sample (X‐HESS). Almost ∼35%$$ \sim 35\% $$ of the X‐HESS AGN have multi‐epoch archival observations and ∼70%$$ \sim 70\% $$ of the sources can rely on simultaneous OM optical data. First results reveal sources showing signatures of ultra‐fast outflows and remarkable long‐ and short‐term X‐ray flux variations. Indeed in SDSS J095847.88+690532.7 (z∼1.3$$ z\sim 1.3 $$), one of the most densely monitored objects hosting a ∼109 M⊙$$ \sim 1{0}^9\;{M}_{\odot } $$ supermassive black hole, we discovered a variation of the soft X‐ray flux by a factor of >2 over approximately one week (rest‐frame). Large variations in the power‐law continuum photon index Γ$$ \Gamma $$ are also observed, questioning expectations from previously reported Γ−λEdd$$ \Gamma -{\lambda}_{\mathrm{Edd}} $$ relations, for which Γ≥2$$ \Gamma \ge 2 $$ would be a ubiquitous hallmark of AGN with λEdd∼1$$ {\lambda}_{\mathrm{Edd}}\sim 1 $$. [ABSTRACT FROM AUTHOR]

Published

2023

6. Tracking the spectral properties of ESO 511-G030 across different epochs.

Author

Middei, R., Petrucci, P.-O., Bianchi, S., Ursini, F., Matzeu, G. A., Vagnetti, F., Tortosa, A., Marinucci, A., Matt, G., Piconcelli, E., De Rosa, A., De Marco, B., Reeves, J., Perri, M., Guainazzi, M., Cappi, M., and Done, C.

Subjects

*SPECTRAL energy distribution, *ACTIVE galactic nuclei, *SUPERMASSIVE black holes, *SOLAR flares, *ACCRETION (Astrophysics), *MOLECULAR spectra

Abstract

The Type 1 active galactic nucleus (AGN) ESO 511-G030, a formerly bright and soft excess dominated source, was observed in 2019 in the context of a multi-wavelength monitoring campaign. In the new exposures, the source was found to be in a flux state approximately ten times lower than archival exposures and without any trace of the soft excess. Interestingly, the X-ray weakening observed in the 2019 data corresponds to a comparable fading of the UV flux, suggesting a strong link between these two components. The UV-X-ray spectral energy distribution (SED) of ESO 511-G030 shows remarkable variability. We tested both phenomenological and physically motivated models on the data, finding that the overall emission spectrum of ESO 511-G030 in this extremely low flux state is due to the superposition of a power-law-like continuum (1:7) and two reflection components emerging from hot and cold matter. Both the primary X-ray continuum and relativistic reflection are produced in the inner regions close to the supermassive black hole. The prominent variability of ESO 511-G030 and the lack of a soft excess can be explained by the dramatic change in the observed accretion rate, which dropped from an L=LEdd of 2% in 2007 to one of 0.2% in 2019. The X-ray photon index also became harder during the low flux observations from 2019, perhaps as a result of a photon starved X-ray corona. [ABSTRACT FROM AUTHOR]

Published

2023

7. Mapping the circumnuclear regions of the Circinus galaxy with the Imaging X-ray Polarimetry Explorer.

Author

Ursini, F, Marinucci, A, Matt, G, Bianchi, S, Marin, F, Marshall, H L, Middei, R, Poutanen, J, Rogantini, D, De Rosa, A, Di Gesu, L, García, J A, Ingram, A, Kim, D E, Krawczynski, H, Puccetti, S, Soffitta, P, Svoboda, J, Tombesi, F, and Weisskopf, M C

Subjects

SEYFERT galaxies, X-ray imaging, POLARIMETRY, ACTIVE galactic nuclei, MONTE Carlo method, X-ray spectra, INTRAMOLECULAR proton transfer reactions

Abstract

We report on the Imaging X-ray Polarimetry Explorer (IXPE) observation of the closest and X-ray brightest Compton-thick active galactic nucleus (AGN), the Circinus galaxy. We find the source to be significantly polarized in the 2–6 keV band. From previous studies, the X-ray spectrum is known to be dominated by reflection components, both neutral (torus) and ionized (ionization cones). Our analysis indicates that the polarization degree is 28 ± 7 per cent (at 68 per cent confidence level) for the neutral reflector, with a polarization angle of 18° ± 5°, roughly perpendicular to the radio jet. The polarization of the ionized reflection is unconstrained. A comparison with Monte Carlo simulations of the polarization expected from the torus shows that the neutral reflector is consistent with being an equatorial torus with a half-opening angle of 45°–55°. This is the first X-ray polarization detection in a Seyfert galaxy, demonstrating the power of X-ray polarimetry in probing the geometry of the circumnuclear regions of AGNs, and confirming the basic predictions of standard Unification Models. [ABSTRACT FROM AUTHOR]

Published

2023

8. new emulated Monte Carlo radiative transfer disc-wind model: X-Ray Accretion Disc-wind Emulator – xrade.

Author

Matzeu, G A, Lieu, M, Costa, M T, Reeves, J N, Braito, V, Dadina, M, Nardini, E, Boorman, P G, Parker, M L, Sim, S A, Barret, D, Kammoun, E, Middei, R, Giustini, M, Brusa, M, Cabrera, J Pérez, and Marchesi, S

Subjects

RADIATIVE transfer, SUPERVISED learning, X-ray spectra, X-rays, ARTIFICIAL neural networks, ACCRETION (Astrophysics)

Abstract

We present a new X-Ray Accretion Disc-wind Emulator (xrade) based on the 2.5D Monte Carlo radiative transfer code that provides a physically motivated, self-consistent treatment of both absorption and emission from a disc wind by computing the local ionization state and velocity field within the flow. xrade is then implemented through a process that combines X-ray tracing with supervised machine learning. We develop a novel emulation method consisting in training, validating, and testing the simulated disc-wind spectra into a purposely built artificial neural network. The trained emulator can generate a single synthetic spectrum for a particular parameter set in a fraction of a second, in contrast to the few hours required by a standard Monte Carlo radiative transfer pipeline. The emulator does not suffer from interpolation issues with multidimensional spaces that are typically faced by traditional X-ray fitting packages such as xspec. xrade will be suitable to a wide number of sources across the black hole mass, ionizing luminosity, and accretion rate scales. As an example, we demonstrate the applicability of xrade to the physical interpretation of the X-ray spectra of the bright quasar PDS 456, which hosts the best-established accretion disc wind observed to date. We anticipate that our emulation method will be an indispensable tool for the development of high-resolution theoretical models, with the necessary flexibility to be optimized for the next generation microcalorimeters onboard future missions, like X-Ray Imaging and Spectroscopy Mission (XRISM)/Resolve and Athena /X-ray Integral Field Unit (X-IFU). This tool can also be implemented across a wide variety of X-ray spectral models and beyond. [ABSTRACT FROM AUTHOR]

Published

2022

9. reXcor: a model of the X-ray spectrum of active galactic nuclei that combines ionized reflection and a warm corona.

Author

Xiang, X, Ballantyne, D R, Bianchi, S, De Rosa, A, Matt, G, Middei, R, Petrucci, P-O, Różańska, A, and Ursini, F

Subjects

ACTIVE galactic nuclei, X-ray spectra, ACCRETION disks, SOLAR corona, BLACK holes, SEYFERT galaxies, ACTIVE galaxies

Abstract

The X-ray spectra of active galactic nuclei (AGNs) often exhibit an excess of emission above the primary power law at energies ≲2 keV. Two models for the origin of this 'soft excess' are ionized relativistic reflection from the inner accretion disc and Comptonization of thermal emission in a warm corona. Here, we introduce reXcor , a new AGN X-ray (0.3–100 keV) spectral fitting model that self-consistently combines the effects of both ionized relativistic reflection and the emission from a warm corona. In this model, the accretion energy liberated in the inner disc is distributed between a warm corona, a lamppost X-ray source, and the accretion disc. The emission and ionized reflection spectrum from the inner 400  rg of the disc is computed, incorporating the effects of relativistic light-bending and blurring. The resulting spectra predict a variety of soft excess shapes and sizes that depend on the fraction of energy dissipated in the warm corona and lamppost. We illustrate the use of reXcor by fitting to the joint XMM–Newton and NuSTAR observations of the Seyfert 1 galaxies HE 1143-1820 and NGC 4593, and find that both objects require a warm corona contribution to the soft excess. Eight reXcor table models, covering different values of accretion rate, lamppost height, and black hole spin, are publicly available through the xspec website. Systematic use of reXcor will provide insight into the distribution of energy in AGN accretion flows. [ABSTRACT FROM AUTHOR]

Published

2022

10. first hard X-ray spectral catalogue of Blazars observed by NuSTAR.

Author

Middei, R, Giommi, P, Perri, M, Turriziani, S, Sahakyan, N, Chang, Y L, Leto, C, and Verrecchia, F

Subjects

*HARD X-rays, *SPECTRAL energy distribution, *SOLAR flares, *ACTIVE galactic nuclei, *BL Lacertae objects, *DOWNLOADING

Abstract

Blazars are a peculiar class of active galactic nuclei that enlighten the sky at all wavelengths. The electromagnetic emission of these sources is jet-dominated, resulting in a spectral energy distribution (SED) that has a typical double-humped shape. X-ray photons provide a wealth of information on the physics of each source as in the X-ray band, we can observe the tail of SED first peak, the rise of the second one or the transition between the two. NuSTAR , thanks to its capability of focusing X-rays up to 79 keV provides broad-band data particularly suitable to compute SEDs in a still poorly explored part of the spectrum. In the context of the Open Universe initiative, we developed a dedicated pipeline, NuSTAR_Spectra , a shell-script that automatically downloads data from the archive, generates scientific products and carries out a complete spectral analysis. The script homogeneously extracts high level scientific products for both NuSTAR 's telescopes and the spectral characterization is performed testing two phenomenological models. The corresponding X-ray properties are derived from the data best fit, and the SEDs are also computed. The systematic processing of all blazar observations of the NuSTAR public archive allowed us to release the first hard X-ray spectroscopic catalogue of blazars (NuBlazar). The catalogue, updated to 2021 September 30, includes 253 observations of 126 distinct blazars, 30 of which have been multiply observed. [ABSTRACT FROM AUTHOR]

Published

2022

11. lively accretion disc in NGC 2992 – II. The 2019/2021 X-ray monitoring campaigns.

Author

Middei, R, Marinucci, A, Braito, V, Bianchi, S, De Marco, B, Luminari, A, Matt, G, Nardini, E, Perri, M, Reeves, J N, and Vagnetti, F

Subjects

*ACCRETION disks, *X-rays, *SEYFERT galaxies, *ENERGY bands, *MOLECULAR spectra

Abstract

We report on the short- and long-term X-ray properties of the bright nearby Seyfert 2 galaxy NGC 2992, which was extensively observed with Swift ,  XMM–Newton , and NuSTAR.  Swift targeted the source more than 100 times between 2019 and 2021 in the context of two monitoring campaigns. Both time-averaged and time-resolved analyses are performed, and we find that the short-to-long term spectral properties of NGC 2992 are dominated by a highly variable nuclear continuum. The source varied in the 2–10 keV energy band from 0.6 to 12 × 10−11 erg cm−2 s−1 during the two year long Swift monitoring. The fastest 2–10 keV flux change (by a factor of |$\sim 60{{\ \rm per\ cent}}$|⁠) occurred on a time-scale of a few hours. The overall emission spectrum of the source is consistent with a power law-like continuum (Γ = 1.69 ± 0.01) absorbed by a constant line-of-sight column density N H = (7.8 ± 0.1) × 1021 |$\rm cm^{-2}$|⁠. The reflected emission is likely due to matter with an average column density N H = (9.6 ± 2.7) × 1022 |$\rm cm^{-2}$|⁠ , thus NGC 2992 appears to have a globally Compton-thin circumnuclear medium. This scenario is fully supported by an independent analysis of the fractional variability and by XMM–Newton multiyear spectra. [ABSTRACT FROM AUTHOR]

Published

2022

12. X-ray spectra, light curves and SEDs of blazars frequently observed by Swift.

Author

Giommi, Paolo, Perri, M, Capalbi, M, D'Elia, V, Barres de Almeida, U, Brandt, C H, Pollock, A M T, Arneodo, F, Di Giovanni, A, Chang, Y L, Civitarese, O, De Angelis, M, Leto, C, Verrecchia, F, Ricard, N, Di Pippo, S, Middei, R, Penacchioni, A V, Ruffini, R, and Sahakyan, N

Subjects

X-ray spectra, LIGHT curves, BL Lacertae objects, SPECTRAL energy distribution, ASTROPHYSICS, ENERGY bands, COSMIC rays

Abstract

Blazars research is one of the hot topics of contemporary extragalactic astrophysics. That is because these sources are the most abundant type of extragalactic γ-ray sources and are suspected to play a central role in multimessenger astrophysics. We have used Swift |$\_$| xrtproc, a tool to carry out an accurate spectral and photometric analysis of the Swift-XRT data of all blazars observed by Swift at least 50 times between December 2004 and the end of 2020. We present a database of X-ray spectra, best-fit parameter values, count rates and flux estimations in several energy bands of over 31 000 X-ray observations and single snapshots of 65 blazars. The results of the X-ray analysis have been combined with other multifrequency archival data to assemble the broad-band Spectral Energy Distributions (SEDs) and the long-term light curves of all sources in the sample. Our study shows that large X-ray luminosity variability on different time-scales is present in all objects. Spectral changes are also frequently observed with a 'harder-when-brighter' or 'softer-when-brighter' behaviour depending on the SED type of the blazars. The peak energy of the synchrotron component (νpeak) in the SED of HBL blazars, estimated from the log-parabolic shape of their X-ray spectra, also exhibits very large changes in the same source, spanning a range of over two orders of magnitude in Mrk421 and Mrk501, the objects with the best data sets in our sample. [ABSTRACT FROM AUTHOR]

Published

2021

13. Individual optical variability of active galactic nuclei from the MEXSAS2 sample.

Author

Laurenti, M, Vagnetti, F, Middei, R, and Paolillo, M

Subjects

ACTIVE galactic nuclei, PHYSICAL constants

Abstract

At present, most of the variability studies of active galactic nuclei (AGNs) are based on ensemble analyses. Nevertheless, it is interesting to provide estimates of the individual variability properties of each AGN, in order to relate them with intrinsic physical quantities. A useful data set is provided by the Catalina Surveys Data Release 2 (CSDR2), which encompasses almost a decade of photometric measurements of ∼500 million objects repeatedly observed hundreds of times. We aim to investigate the individual optical variability properties of 795 AGNs originally included in the Multi-Epoch XMM Serendipitous AGN Sample 2 (MEXSAS2). Our goals consist of (i) searching for correlations between variability and AGN physical quantities and (ii) extending our knowledge of the variability features of MEXSAS2 from the X-ray to the optical. We use the structure function (SF) to analyse AGN flux variations. We model the SF as a power law, |$\text{SF}(\tau)=A\, (\tau /\tau _0)^\gamma$|⁠ , and we compute its variability parameters. We introduce the V-correction as a simple tool to correctly quantify the amount of variability in the rest frame of each source. We find a significant decrease of variability amplitude with increasing bolometric, optical and X-ray luminosity. We obtain the indication of an intrinsically weak positive correlation between variability amplitude and redshift, z. Variability amplitude also appears to be positively correlated with αox. The slope of the power-law SF, γ, is weakly correlated with the bolometric luminosity L bol and/or with the black hole mass M BH. When comparing optical to X-ray variability properties, we find that X-ray variability amplitude is approximately the same for those AGNs with larger or smaller variability amplitude in the optical. On the contrary, AGNs with steeper SF in the optical do present steeper SF in the X-ray, and vice versa. [ABSTRACT FROM AUTHOR]

Published

2020

14. Open Universe survey of Swift-XRT GRB fields: Flux-limited sample of HBL blazars.

Author

Giommi, P., Chang, Y. L., Turriziani, S., Glauch, T., Leto, C., Verrecchia, F., Padovani, P., Penacchioni, A. V., Arneodo, F., Barres de Almeida, U., Brandt, C. H., Capalbi, M., Civitarese, O., D'Elia, V., Di Giovanni, A., De Angelis, M., Del Rio Vera, J., Di Pippo, S., Middei, R., and Perri, M.

Subjects

GAMMA ray bursts, SPECTRAL energy distribution, SPACE sciences, X-ray astronomy, COMPUTER operating systems

Abstract

Aims. The sample of serendipitous sources detected in all Swift-XRT images pointing at gamma ray bursts (GRBs) constitutes the largest existing medium-deep survey of the X-ray sky. To build such dataset we analysed all Swift X-ray images centred on GRBs and observed over a period of 15 years using automatic tools that do not require any expertise in X-ray astronomy. Besides presenting a new large X-ray survey and a complete sample of blazars, this work aims to be a step in the direction of achieving the ultimate goal of the Open Universe Initiative, which is to enable non-expert people to benefit fully from space science data, possibly extending the potential for scientific discovery, which is currently confined within a small number of highly specialised teams, to a much larger population. Methods. We used the Swift_deepsky Docker container encapsulated pipeline to build the largest existing flux-limited and unbiased sample of serendipitous X-ray sources. Swift_deepsky runs on any laptop or desktop computer with a modern operating system. The tool automatically downloads the data and the calibration files from the archives, runs the official Swift analysis software, and produces a number of results including images, the list of detected sources, X-ray fluxes, spectral energy distribution data, and spectral slope estimations. Results. We used our source list to build the LogN-LogS of extra-galactic sources, which perfectly matches that estimated by other satellites. Combining our survey with multi-frequency data, we selected a complete radio-flux-density-limited sample of high energy peaked blazars (HBL). The LogN-LogS built with this data set confirms that previous samples are incomplete below ∼20 mJy. [ABSTRACT FROM AUTHOR]

Published

2020

15. The lively accretion disc in NGC 2992 – I. Transient iron K emission lines in the high-flux state.

Author

Marinucci, A, Bianchi, S, Braito, V, De Marco, B, Matt, G, Middei, R, Nardini, E, and Reeves, J N

Subjects

SEYFERT galaxies, TIME-resolved spectroscopy, X-ray binaries, BLACK holes, ENERGY bands, ACTIVE galaxies, GALACTIC X-ray sources

Abstract

We report on one of the brightest flux levels of the Seyfert 2 galaxy NGC 2992 ever observed in X-rays, on 2019 May. The source has been monitored every few days from 2019 March 26 to 2019 December 14 by Swift -X-Ray Telescope (XRT), and simultaneous XMM–Newton (250 ks) and NuSTAR (120 ks) observations were triggered on 2019 May 6. The high count rate of the source (its 2–10 keV flux ranged between 0.7 and 1.0 × 10−10 erg cm−2 s−1) allows us to perform a time-resolved spectroscopy, probing spatial scales of tens of gravitational radii from the central black hole. By constructing a map of the excess emission over the primary continuum, we find several emission structures in the 5.0–7.2 keV energy band. From fitting the 50 European Photon Imaging Camera (EPIC)-pn spectral slices of ∼5 ks duration, we interpret them as a constant narrow iron Kα line and three variable components in the iron K complex. When a self-consistent model accounting for the accretion disc emission is considered (KYNrline), two of these features (in the 5.0–5.8 and 6.8–7.2 keV bands) can be ascribed to a flaring region of the accretion disc located at r in ≃ 15–40 r g from the black hole. The third one (6.5–6.8 keV) is likely produced at much larger radii (r in > 50 r g). The inner radius and the azimuthal extension retrieved from the co-added spectra of the flaring states are r in = 15 ± 3 r g and ϕ = 165°–330°, suggesting that the emitting region responsible for the broad iron K component is a relatively compact annular sector within the disc. Our findings support a physical scenario in which the accretion disc in NGC 2992 becomes more active at high accretion rates (⁠|$L_{\rm bol}/L_{\rm Edd}\ge 4$|  per cent). [ABSTRACT FROM AUTHOR]

Published

2020

16. A broadband X-ray view of the NLSy1 1E 0754.6+3928.

Author

Middei, R., Tombesi, F., Vagnetti, F., Serafinelli, R., Bianchi, S., Miniutti, G., Marinucci, A., Matzeu, G. A., Petrucci, P.-O., Ursini, F., and Zaino, A.

Subjects

*ACTIVE galactic nuclei, *SEYFERT galaxies, *X-rays, *SOFT X rays, *ACTIVE galaxies, *BIPOLAR outflows (Astrophysics), *GRAVITATIONAL waves

Abstract

Context. The soft X-ray band of many active galactic nuclei (AGNs) is affected by obscuration due to partially ionised matter crossing our line of sight. In this context, two past XMM-Newton observations that were six months apart and a simultaneous NuSTAR-Swift exposure of the Narrow Line Seyfert 1 galaxy 1E 0754.6+3928, which was approximately eight years later, revealed an intense and variable warm absorber (WA) and hints of additional absorbers in the Fe Kα band. Aims. We aim to provide the first X-ray characterisation of this AGN by discussing its broadband (0.3-79 keV) spectrum and temporal properties. Methods. We conduct a temporal and spectroscopic analysis on two ~10 ks (net exposure) XMM-Newton snapshots performed in April and October 2006. We also study the high energy behaviour of 1E 0754.6+3928 and model its broadband spectrum by using simultaneous Swift-NuSTAR data. Both phenomenological and physically motivated models are tested. Results. We find the presence of flux variability of ~150% and 30% for 0.3-2 and 2-10 keV bands, respectively, and spectral changes at months timescales of Δ ~ 0.4. A reflection component that is consistent with being constant over years and arising from relatively cold material that is far from the central super massive black hole is detected. The main spectral feature shaping the 1E 0754.6+3928 spectrum is a WA. Such a component is persistent over the years and the variability of its ionisation and column density is observed down on months in the ranges 3 × 1022cm-2. NH. 7.2 × 1022cm-2 and 1.5. log (~=erg s-1 cm). 2.1. Despite the short exposures, we find possible evidence of two additional high-ionisation and high-velocity outflow components in absorption. Conclusions. Our analysis suggests the existence of a complex system of absorbers in 1E 0754.6+3928. Longer exposures are required in order to characterise, on more solid grounds, the absorbers in this AGN. [ABSTRACT FROM AUTHOR]

Published

2020

17. Open Universe for Blazars: a new generation of astronomical products based on 14 years of Swift-XRT data.

Author

Giommi, P., Brandt, C. H., Barres de Almeida, U., Pollock, A. M. T., Arneodo, F., Chang, Y. L., Civitarese, O., De Angelis, M., D'Elia, V., Del Rio Vera, J., Di Pippo, S., Middei, R., Penacchioni, A. V., Perri, M., Ruffini, R., Sahakyan, N., and Turriziani, S.

Subjects

RADIANT intensity, SPACE sciences, DATA science, UNIVERSE, ASTROPHYSICS, GALACTIC X-ray sources, MACINTOSH (Computer)

Abstract

Aims. Open Universe for Blazars is a set of high-transparency multi-frequency data products for blazar science, and the tools designed to generate them. Blazars are drawing growing interest following the consolidation of their position as the most abundant type of source in the extragalactic very high-energy γ-ray sky, and because of their status as prime candidate sources in the nascent field of multi-messenger astrophysics. As such, blazar astrophysics is becoming increasingly data driven, depending on the integration and combined analysis of large quantities of data from the entire span of observational astrophysics techniques. The project was therefore chosen as one of the pilot activities within the United Nations Open Universe Initiative, whose objective is to stimulate a large increase in the accessibility and ease of utilisation of space science data for the worldwide benefit of scientific research, education, capacity building, and citizen science. Methods. Our aim is to deliver innovative data science tools for multi-messenger astrophysics. In this work we report on a data analysis pipeline called Swift-DeepSky based on the Swift XRTDAS software and the XIMAGE package, encapsulated into a Docker container. Swift-DeepSky downloads and reads low-level data, generates higher level products, detects X-ray sources, and estimates several intensity and spectral parameters for each detection, thus facilitating the generation of complete and up-to-date science-ready catalogues from an entire space-mission data set. Results. As a first application of our innovative approach, we present the results of a detailed X-ray image analysis based on Swift-DeepSky that was run on all Swift-XRT observations including a known blazar, carried out during the first 14 years of operations of the Neil Gehrels Swift Observatory. Short exposures executed within one week of each other have been added to increase sensitivity, which ranges between ∼1 × 10−12 and ∼1 × 10−14 erg cm−2 s−1 (0.3–10.0 keV). After cleaning for problematic fields, the resulting database includes over 27 000 images integrated in different X-ray bands, and a catalogue, called 1OUSXB, that provides intensity and spectral information for 33 396 X-ray sources, 8896 of which are single or multiple detections of 2308 distinct blazars. All the results can be accessed online in a variety of ways, from the Open Universe portal through Virtual Observatory services, via the VOU-Blazar tool and the SSDC SED builder. One of the most innovative aspects of this work is that the results can be easily reproduced and extended by anyone using the Docker version of the Swift-DeepSky pipeline, which runs on Linux, Mac, and Windows machines, and does not require any specific experience in X-ray data analysis. [ABSTRACT FROM AUTHOR]

Published

2019

18. High-energy monitoring of NGC 4593 II. Broad-band spectral analysis: testing the two-corona model.

Author

Middei, R, Bianchi, S, Petrucci, P-O, Ursini, F, Cappi, M, De Marco, B, De Rosa, A, Malzac, J, Marinucci, A, Matt, G, Ponti, G, and Tortosa, A

Subjects

*X-ray emission spectroscopy, *GALAXIES, *STAR formation, *ACTIVE galactic nuclei

Abstract

It is widely believed that the primary X-ray emission of AGN is due to the Comptonization of optical-UV photons from a hot electron corona, while the origin of the 'soft-excess' is still uncertain and matter of debate. A second Comptonization component, called warm corona, was therefore proposed to account for the soft-excess, and found in agreement with the optical-UV to X-ray emission of a sample of Seyfert galaxies. In this context, we exploit the broad-band XMM–Newton and NuSTAR simultaneous observations of the Seyfert galaxy NGC 4593 to further test the so-called 'two corona model'. The NGC 4593 spectra are well reproduced by the model, from the optical/UV to the hard X-rays. Moreover, the data reveal a significant correlation between the hot and the warm corona parameters during our monitoring campaign. [ABSTRACT FROM AUTHOR]

Published

2019

19. A deep X-ray view of the bare AGN Ark 120: VI. Geometry of the hot corona from spectroscopic and polarization signatures.

Author

Marinucci, A., Porquet, D., Tamborra, F., Bianchi, S., Braito, V., Lobban, A., Marin, F., Matt, G., Middei, R., Nardini, E., Reeves, J., and Tortosa, A.

Subjects

RADIO jets (Astrophysics), ACTIVE galactic nuclei, COMPTON scattering, HARD X-rays, SEYFERT galaxies, ASTROPHYSICS

Abstract

Context. The spectral shape of the hard X-ray continuum of Active Galactic Nuclei (AGN) can be ascribed to inverse Compton scattering of optical/UV seed photons from the accretion disc by a hot corona of electrons. This physical process produces a polarization signal which is strongly sensitive to the geometry of the scattering medium (i.e. the hot corona) and of the radiation field. Aims. MoCA (Monte Carlo code for Comptonisation in Astrophysics) is a versatile code which allows for different geometries and configurations to be tested for Compton scattering in compact objects. A single photon approach is considered as well as polarisation and Klein–Nishina effects. In this work, we selected four different geometries for the scattering electrons cloud above the accretion disc, namely an extended slab, an extended spheroid and two compact spheroids. Methods. We discuss the first application of the MoCA model to reproduce the hard X-ray primary continuum of the bare Seyfert 1 galaxy Ark 120, using different geometries for the hot corona above the accretion disc. The lack of extra-Galactic absorption along the line of sight makes it an excellent target for studying the accretion disc-corona system. We report on the spectral analysis of the simultaneous 2013 and 2014 XMM-Newton and NuSTAR observations of the source. Results. A general agreement is found between the best fit values of the hot coronal parameters obtained with MoCA and the ones inferred using other Comptonisation codes from the literature. The expected polarization signal from the best fits with MoCA is then presented and discussed, in view of the launch in 2021 of the Imaging X-ray Polarimetry Explorer (IXPE). Conclusions. We find that none of the tested geometries for the hot corona (extended slab and extended/compact spheroids) can be statistically preferred, based on spectroscopy solely. In the future, an IXPE observation less than 1 Ms long will clearly distinguish between an extended slab or a spherical hot corona. [ABSTRACT FROM AUTHOR]

Published

2019

20. HST/COS observations of the newly discovered obscuring outflow in NGC 3783.

Author

Kriss, G. A., Mehdipour, M., Kaastra, J. S., Rau, A., Bodensteiner, J., Plesha, R., Arav, N., Behar, E., Bianchi, S., Branduardi-Raymont, G., Cappi, M., Costantini, E., De Marco, B., Di Gesu, L., Ebrero, J., Kaspi, S., Mao, J., Middei, R., Miller, T., and Paltani, S.

Subjects

TELESCOPES, WAVELENGTHS, ABSORPTION, ULTRAVIOLET radiation, PHOTOIONIZATION

Abstract

Aims. To understand the nature of transient obscuring outflows in active galactic nuclei, we use simultaneous multiwavelength observations with XMM-Newton, NuSTAR, the Hubble Space Telescope (HST), and the Max Planck Gesellschaft/European Southern Observatory (ESO) 2.2 m telescope triggered by soft X-ray absorption detected by Swift. Methods. We obtained ultraviolet spectra on 2016-12-12 and 2016-12-21 using the Cosmic Origins Spectrograph (COS) on HST simultaneously with X-ray spectra obtained with XMM-Newton and NuSTAR. We modeled the ultraviolet spectra to measure the strength and variability of the absorption, and used photoionization models to obtain its physical characteristics. Results. We find new components of broad, blue-shifted absorption associated with Lyα, N V, Si IV, and C IV in our COS spectra. The absorption extends from near-zero velocities in the rest-frame of the host galaxy to −6200 km s−1. These features appear for the first time in NGC 3783 at the same time as heavy soft X-ray absorption seen in the XMM-Newton X-ray spectra. The X-ray absorption has a column density of ∼1023 cm−2, and it partially covers the X-ray continuum source. Combining the X-ray column densities with the UV spectral observations yields an ionization parameter for the obscuring gas of log ξ = 1.84−0.2+0.4 erg cm s−1 log   ξ = 1. 84 − 0.2 + 0.4 erg   cm   s − 1 $ \log \xi = 1.84_{ - 0.2}^{ + 0.4}{\rm{erg}}\,{\rm{cm}}\,{{\rm{s}}^{ - 1}}\ $. Despite the high intensity of the UV continuum in NGC 3783, F(1470 Å) = 8 × 10−14 erg cm−2 s−1 Å−1>, the well known narrow UV absorption lines are deeper than in earlier observations in unobscured states, and low ionization states such as C III appear, indicating that the narrow-line gas is more distant from the nucleus and is being shadowed by the gas producing the obscuration. Despite the high continuum flux levels in our observations of NGC 3783, moderate velocities in the UV broad line profiles have substantially diminished. Conclusions.We suggest that a collapse of the broad line region has led to the outburst and triggered the obscuring event. [ABSTRACT FROM AUTHOR]

Published

2019

21. Photoionized emission and absorption features in the high-resolution X-ray spectra of NGC 3783.

Author

Mao, Junjie, Mehdipour, M., Kaastra, J. S., Costantini, E., Pinto, C., Branduardi-Raymont, G., Behar, E., Peretz, U., Bianchi, S., Kriss, G. A., Ponti, G., De Marco, B., Petrucci, P.-O., Di Gesu, L., Middei, R., Ebrero, J., and Arav, N.

Subjects

PHOTOIONIZATION, EMISSIONS (Air pollution), SPECTROMETERS, ABSORPTION, X-ray spectra

Abstract

Our Swift monitoring program triggered two joint XMM-Newton, NuSTAR, and HST observations on 11 and 21 December 2016 targeting NGC 3783 because its soft X-ray continuum was heavily obscured. Consequently, emission features, including the O VII radiative recombination continuum, stand out above the diminished continuum. We focus on the photoionized emission features in the December 2016 Reflection Grating Spectrometer (RGS) spectra, and compare them to the time-averaged RGS spectrum obtained in 2000–2001 when the continuum was unobscured. A two-phase photoionized plasma is required to account for the narrow emission features. These narrow emission features are weakly varying between 2000–2001 and December 2016. We also find a statistically significant broad emission component in the time-averaged RGS spectrum in 2000–2001. This broad emission component is significantly weaker in December 2016, suggesting that the obscurer is farther away than the X-ray broad-line region. In addition, by analyzing the archival high-resolution X-ray spectra, we find that nine photoionized absorption components with different ionization parameters and kinematics are required for the warm absorber in X-rays. [ABSTRACT FROM AUTHOR]

Published

2019

22. NuSTAR spectral analysis of two bright Seyfert 1 galaxies: MCG +8-11-11 and NGC 6814.

Author

Tortosa, A., Bianchi, S., Marinucci, A., Matt, G., Middei, R., Piconcelli, E., Brenneman, L. W., Cappi, M., Dadina, M., De Rosa, A., Petrucci, P. O., Ursini, F., and Walton, D. J.

Subjects

SEYFERT galaxies, GALACTIC nuclei, X-rays, LUMINOSITY, BLACK holes

Abstract

We report on the NuSTAR observations of two bright Seyfert 1 galaxies, namely MCG +8-11- 11 (100 ks) and NGC 6814 (150 ks). The main goal of these observations was to investigate the Comptonization mechanisms acting in the innermost regions of an active galactic nucleus (AGN) which are believed to be responsible for the UV/X-ray emission. The spectroscopic analysis of the NuSTAR spectra of these two sources revealed that although they had different properties overall (black hole masses, luminosity and Eddington ratios), they had very similar coronal properties. Both presented a power-law spectrum with a high-energy cut-off at ~150-200 keV, a relativistically broadened Fe Kα line and the associated disc reflection component, plus a narrow iron line likely emitted in Compton thin and distant matter. The intrinsic continuum was well described by Comptonization models that show for MCG +8-11-11 a temperature of the coronal plasma of kTe ~ 60 keV and an extrapolated optical depth τ = 1.8; for NGC 6814, the coronal temperature was kTe ~ 45 keV with an extrapolated optical depth of τ = 2.5. We compare and discuss these values to some most common Comptonization models that aim at explaining the energy production and stability of coronae in AGNs. [ABSTRACT FROM AUTHOR]

Published

2018

23. Multi-wavelength campaign on NGC 7469 II. Column densities and variability in the X-ray spectrum.

Author

Peretz, U., Behar, E., Kriss, G. A., Kaastra, J., Arav, N., Bianchi, S., Branduardi-Raymont, G., Cappi, M., Costantini, E., De Marco, B., Di Gesu, L., Ebrero, J., Kaspi, S., Mehdipour, M., Middei, R., Paltani, S., Petrucci, P. O., Ponti, G., and Ursini, F.

Subjects

SPIRAL galaxies, WAVELENGTHS, X-ray spectra, BIPOLAR outflows (Astrophysics), ASTRONOMICAL observations

Abstract

We investigate the ionic column density variability of the ionized outflows associated with NGC∼7469, to estimate their location and power. This could allow a better understanding of galactic feedback of AGNs to their host galaxies. Analysis of seven XMM-Newton grating observations from 2015 is reported. We use an individual-ion spectral fitting approach, and compare different epochs to accurately determine variability on time-scales of years, months, and days. We find no significant column density variability in a 10 year period implying that the outflow is far from the ionizing source. The implied lower bound on the ionization equilibrium time, 10 years, constrains the lower limit on the distance to be at least 12 pc, and up to 31 pc, much less but consistent with the 1 kpc wide starburst ring. The ionization distribution of column density is reconstructed from measured column densities, nicely matching results of two 2004 observations, with one large high ionization parameter (ξ) component at 2

Published

2018

24. Quasar spectral variability from the XMM-Newton serendipitous source catalogue.

Author

Serafinelli, R., Vagnetti, F., and Middei, R.

Subjects

ACTIVE galactic nuclei, SPECTRA of quasars, STELLAR luminosity function, GALACTIC redshift

Abstract

Context. X-ray spectral variability analyses of active galactic nuclei (AGN) with moderate luminosities and redshifts typically show a "softer when brighter" behaviour. Such a trend has rarely been investigated for high-luminosity AGNs (Lbol ≲ 1044 erg/s), nor for a wider redshift range (e.g. 0 ≳ z ≳ 5). Aims. We present an analysis of spectral variability based on a large sample of 2700 quasars, measured at several different epochs, extracted from the fifth release of the XMM-Newton Serendipitous Source Catalogue. Methods. We quantified the spectral variability through the parameter β defined as the ratio between the change in the photon index G and the corresponding logarithmic flux variation, β = -ΔG/ΔlogΔFX. Results. Our analysis confirms a softer when brighter behaviour for our sample, extending the previously found general trend to high luminosity and redshift. We estimate an ensemble value of the spectral variability parameter β = -0.69 ± 0.03. We do not find dependence of β on redshift, X-ray luminosity, black hole mass or Eddington ratio. A subsample of radio-loud sources shows a smaller spectral variability parameter. There is also some change with the X-ray flux, with smaller β (in absolute value) for brighter sources. We also find significant correlations for a small number of individual sources, indicating more negative values for some sources. [ABSTRACT FROM AUTHOR]

Published

2017

25. X-ray polarization evidence for a 200-year-old flare of Sgr A .

Author

Marin F, Churazov E, Khabibullin I, Ferrazzoli R, Di Gesu L, Barnouin T, Di Marco A, Middei R, Vikhlinin A, Costa E, Soffitta P, Muleri F, Sunyaev R, Forman W, Kraft R, Bianchi S, Donnarumma I, Petrucci PO, Enoto T, Agudo I, Antonelli LA, Bachetti M, Baldini L, Baumgartner WH, Bellazzini R, Bongiorno SD, Bonino R, Brez A, Bucciantini N, Capitanio F, Castellano S, Cavazzuti E, Chen CT, Ciprini S, De Rosa A, Del Monte E, Di Lalla N, Doroshenko V, Dovčiak M, Ehlert SR, Evangelista Y, Fabiani S, Garcia JA, Gunji S, Hayashida K, Heyl J, Ingram A, Iwakiri W, Jorstad SG, Kaaret P, Karas V, Kitaguchi T, Kolodziejczak JJ, Krawczynski H, La Monaca F, Latronico L, Liodakis I, Maldera S, Manfreda A, Marinucci A, Marscher AP, Marshall HL, Massaro F, Matt G, Mitsuishi I, Mizuno T, Negro M, Ng CY, O'Dell SL, Omodei N, Oppedisano C, Papitto A, Pavlov GG, Peirson AL, Perri M, Pesce-Rollins M, Pilia M, Possenti A, Poutanen J, Puccetti S, Ramsey BD, Rankin J, Ratheesh A, Roberts OJ, Romani RW, Sgrò C, Slane P, Spandre G, Swartz D, Tamagawa T, Tavecchio F, Taverna R, Tawara Y, Tennant AF, Thomas NE, Tombesi F, Trois A, Tsygankov SS, Turolla R, Vink J, Weisskopf MC, Wu K, Xie F, and Zane S

Abstract

The centre of the Milky Way Galaxy hosts a black hole with a solar mass of about 4 million (Sagittarius A * (Sgr A)) that is very quiescent at present with a luminosity many orders of magnitude below those of active galactic nuclei 1 . Reflection of X-rays from Sgr A * by dense gas in the Galactic Centre region offers a means to study its past flaring activity on timescales of hundreds and thousands of years 2 . The shape of the X-ray continuum and the strong fluorescent iron line observed from giant molecular clouds in the vicinity of Sgr A * are consistent with the reflection scenario 3-5 . If this interpretation is correct, the reflected continuum emission should be polarized 6 . Here we report observations of polarized X-ray emission in the direction of the molecular clouds in the Galactic Centre using the Imaging X-ray Polarimetry Explorer. We measure a polarization degree of 31% ± 11%, and a polarization angle of -48° ± 11°. The polarization angle is consistent with Sgr A * being the primary source of the emission, and the polarization degree implies that some 200 years ago, the X-ray luminosity of Sgr A * was briefly comparable to that of a Seyfert galaxy., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2023

26. Polarized blazar X-rays imply particle acceleration in shocks.

Author

Liodakis I, Marscher AP, Agudo I, Berdyugin AV, Bernardos MI, Bonnoli G, Borman GA, Casadio C, Casanova VC, Cavazzuti E, Rodriguez Cavero N, Di Gesu L, Di Lalla N, Donnarumma I, Ehlert SR, Errando M, Escudero J, Garcı A-Comas M, Agı S-González B, Husillos C, Jormanainen J, Jorstad SG, Kagitani M, Kopatskaya EN, Kravtsov V, Krawczynski H, Lindfors E, Larionova EG, Madejski GM, Marin F, Marchini A, Marshall HL, Morozova DA, Massaro F, Masiero JR, Mawet D, Middei R, Millar-Blanchaer MA, Myserlis I, Negro M, Nilsson K, O'Dell SL, Omodei N, Pacciani L, Paggi A, Panopoulou GV, Peirson AL, Perri M, Petrucci PO, Poutanen J, Puccetti S, Romani RW, Sakanoi T, Savchenko SS, Sota A, Tavecchio F, Tinyanont S, Vasilyev AA, Weaver ZR, Zhovtan AV, Antonelli LA, Bachetti M, Baldini L, Baumgartner WH, Bellazzini R, Bianchi S, Bongiorno SD, Bonino R, Brez A, Bucciantini N, Capitanio F, Castellano S, Ciprini S, Costa E, De Rosa A, Del Monte E, Di Marco A, Doroshenko V, Dovčiak M, Enoto T, Evangelista Y, Fabiani S, Ferrazzoli R, Garcia JA, Gunji S, Hayashida K, Heyl J, Iwakiri W, Karas V, Kitaguchi T, Kolodziejczak JJ, La Monaca F, Latronico L, Maldera S, Manfreda A, Marinucci A, Matt G, Mitsuishi I, Mizuno T, Muleri F, Ng SC, Oppedisano C, Papitto A, Pavlov GG, Pesce-Rollins M, Pilia M, Possenti A, Ramsey BD, Rankin J, Ratheesh A, Sgró C, Slane P, Soffitta P, Spandre G, Tamagawa T, Taverna R, Tawara Y, Tennant AF, Thomas NE, Tombesi F, Trois A, Tsygankov S, Turolla R, Vink J, Weisskopf MC, Wu K, Xie F, and Zane S

Abstract

Most of the light from blazars, active galactic nuclei with jets of magnetized plasma that point nearly along the line of sight, is produced by high-energy particles, up to around 1 TeV. Although the jets are known to be ultimately powered by a supermassive black hole, how the particles are accelerated to such high energies has been an unanswered question. The process must be related to the magnetic field, which can be probed by observations of the polarization of light from the jets. Measurements of the radio to optical polarization-the only range available until now-probe extended regions of the jet containing particles that left the acceleration site days to years earlier 1-3 , and hence do not directly explore the acceleration mechanism, as could X-ray measurements. Here we report the detection of X-ray polarization from the blazar Markarian 501 (Mrk 501). We measure an X-ray linear polarization degree Π X of around 10%, which is a factor of around 2 higher than the value at optical wavelengths, with a polarization angle parallel to the radio jet. This points to a shock front as the source of particle acceleration and also implies that the plasma becomes increasingly turbulent with distance from the shock., (© 2022. The Author(s).)

Published

2022