The collisional and photoionized plasma in the polarized NLS1 galaxy Mrk 1239

Buhariwalla, Margaret; Gallo, Luigi; Mao, Junjie; Komossa, S.; Jiang, Jiachen; Gonzalez, A. G.; Grupe, D.

doi:10.1093/mnras/stad265

Cited by 3 publications

(15 citation statements)

References 60 publications

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“…The SFR measured was ∼3 M e yr −1 , consistent with other measurements. The presumed large scales of the plasma were consistent with the extended and asymmetric X-ray emission seen in the Chandra image (Buhariwalla et al 2023).…”

Section: Introductionsupporting

confidence: 73%

“…The final component was a relatively featureless component, interpreted as the AGN continuum leaking through the obscuring clouds. The components and interpretation were largely consistent in the Reflection Grating Spectrometer (RGS) analysis of Buhariwalla et al (2023). In the RGS spectra, the photo and collisionally ionized components are visible, while the third continuum-like component was not distinguished from the background.…”

Section: Timing Analysissupporting

confidence: 53%

“…Mrk 1239 straddles the border between radio-quiet (Doi et al 2015) and radio-loud (Berton et al 2018) and is classified as a Fanaroff-Riley type I radio source (Fanaroff & Riley 1974;Doi et al 2015), where radio emission is most intense in the center of the galaxy and decreases intensity with increasing radius. Buhariwalla et al (2023) overplotted the soft band emission and the radio contours produced by Järvelä et al (2022) to show that the soft X-ray emission is asymmetric and extended from the center of the galaxy (see Figure 1 of Buhariwalla et al 2023).…”

Section: Introductionmentioning

confidence: 99%

“…The first high-resolution spectrum of Mrk 1239 was reported by Buhariwalla et al (2023). Ionized emission lines were detected between 0.4 and 1.7 keV (7-35 Å); however, due to the dim nature of the source, no continuum was observed.…”

Section: Introductionmentioning

confidence: 99%

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A Hot Mess: The Rich and Complex Soft Emitting Regions Surrounding the Reflection Dominated Flaring Central Engine of Mrk 1239

Buhariwalla,

Gallo,

Mao

et al. 2024

ApJ

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Previous X-ray works on Mrk 1239 have revealed a complex narrow-line Seyfert 1 that exhibits substantial absorption and strong emission from both collisionally ionized and photoionized plasmas. Here, we report on deep-pointed observations with XMM-Newton and NuSTAR, along with Swift monitoring, to understand the 0.3–30 keV continuum emission and the central engine geometry. A strong X-ray flare, where the AGN brightens by a factor of 5 in ∼30 ks, is captured between 4 and 30 keV and can be attributed to a brightening of the primary continuum. However, the lack of any variability below ∼3 keV on long or short timescales requires complete absorption of the AGN continuum with a neutral medium of column density ∼1023.5 cm−2. The timing and spectral properties are consistent with a blurred reflection interpretation for the primary emission. The variability and presence of a Compton hump disfavors ionized partial covering. The neutral absorber, if outflowing, could be crashing into the surrounding medium and interstellar medium to produce the low-energy continuum and collisionally ionized emission. Scattered emission off the inner torus could produce the photoionized emission. The intricate scenario is demanded by the data and highlights the complexity of the environment that is normally invisible when overwhelmed by the AGN continuum. Objects like Mrk 1239 serve as important sources for unveiling the interface between the AGN and host galaxy environments.

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Section: Introductionsupporting

confidence: 73%

Section: Timing Analysissupporting

confidence: 53%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

A Hot Mess: The Rich and Complex Soft Emitting Regions Surrounding the Reflection Dominated Flaring Central Engine of Mrk 1239

Buhariwalla,

Gallo,

Mao

et al. 2024

ApJ

Self Cite

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“…Once identified (no matter whether the type 2 state is long-lived and due to the unified model [100], or due to high-amplitude variability), then, in X-rays, type 2 states enable follow-up imaging spectroscopy. For example, the detection of X-ray lines from the circum-nuclear medium [101,102] and the determination of their excitation/ionization mechanism, or the detection of spatially resolved optical outflows, are of great interest for our understanding of the mechanisms of feeding and feedback, especially in these high-accretion systems which are rapidly growing their SMBHs.…”

Section: Implications and Applications Of Studying CL Events In Nls1 ...mentioning

confidence: 99%

Changing-Look Narrow-Line Seyfert 1 Galaxies, their Detection with SVOM, and the Case of NGC 1566

Xu,

Komossa,

Grupe

et al. 2024

Universe

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We discuss applications of the study of the new and barely explored class of changing-look (CL) narrow-line Seyfert 1 (NLS1) galaxies and comment on their detection with the space mission SVOM (Space Variable Objects Monitor). We highlight the case of NGC 1566, which is outstanding in many respects, for instance as one of the nearest known CL AGN undergoing exceptional outbursts. Its NLS1 nature is discussed, and we take it as a nearby prototype for systems that could be discovered and studied in the near future, including with SVOM. Finally, we briefly examine the broader implications and applications of CL events in NLS1 galaxies and show that such systems, once discovered in larger numbers, will greatly advance our understanding of the physics of the environment of rapidly growing supermassive black holes. This White Paper is part of a sequence of publications which explore aspects of our understanding of (CL) NLS1 galaxy physics with future missions.

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Revealing the burning and soft heart of the bright bare active galactic nucleus ESO 141-G55: X-ray broadband and SED analysis

Porquet,

Reeves,

Hagen

et al. 2024

A&A

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ESO 141-G55 is a nearby X-ray bright broad-line Seyfert\,1 (BLS1) that has been classified as a bare active galactic nucleus (AGN) due to a lack of warm absorption along its line of sight, providing an unhampered view into its disc-corona system. We aim to probe its disc-corona system thanks to the first simultaneous XMM-Newton and NuSTAR observation obtained October 1--2, 2022. We carried out an X-ray broadband spectral analysis to determine the dominant process(es) at work as well as a spectral energy distribution (SED) analysis to determine the disc-corona properties. The simultaneous broadband X-ray spectrum of ESO\,141-G55 is characterised by the presence of a prominent smooth soft X-ray excess, a broad Fe\,Kalpha emission line, and a significant Compton hump. The high-resolution reflection grating spectrometer spectra confirmed the lack of intrinsic warm-absorbing gas along our line of sight in the AGN rest frame, verifying that it is still in a bare state. However, soft X-ray emission lines were observed, indicating substantial warm gas out of our line of sight. The intermediate inclination of the disc-corona system (sim circ $) may offer us a favourable configuration to observe ultra-fast outflows from the disc, but none were found in this 2022 observation, contrary to a previous 2007 XMM-Newton one. We ruled out relativistic reflection alone on a standard disc based on the X-ray broadband analysis, while a combination of soft and hard Comptonisation by a warm and hot corona ( relagn ) plus relativistic reflection ( reflkerrd ) reproduces the ESO\,141-G55 SED quite well. The hot corona temperature is very hot, sim 140\,keV, and much higher than about 80<!PCT!> of AGNs, whereas the warm corona temperature, sim 0.3\,keV, is similar to the values found in other sub-Eddington AGNs. ESO\,141-G55 is accreting at a moderate Eddington accretion rate (sim 10--20<!PCT!>). Our analysis points to a significant contribution of an optically thick warm corona to both the soft X-ray and UV emission in ESO\,141-G55, adding to the growing evidence that the accretion of AGNs (even at a moderate accretion rate) appears to deviate from standard disc theory.

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The collisional and photoionized plasma in the polarized NLS1 galaxy Mrk 1239

Cited by 3 publications

References 60 publications

A Hot Mess: The Rich and Complex Soft Emitting Regions Surrounding the Reflection Dominated Flaring Central Engine of Mrk 1239

A Hot Mess: The Rich and Complex Soft Emitting Regions Surrounding the Reflection Dominated Flaring Central Engine of Mrk 1239

Changing-Look Narrow-Line Seyfert 1 Galaxies, their Detection with SVOM, and the Case of NGC 1566

Revealing the burning and soft heart of the bright bare active galactic nucleus ESO 141-G55: X-ray broadband and SED analysis

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