Your search keyword '"Kara, Erin A"' showing total 13 results

1. Black Holes: Timing and Spectral Properties and Evolution

Author

Kalemci, Emrah, Kara, Erin, Tomsick, John A., Bambi, Cosimo, editor, and Santangelo, Andrea, editor

Published

2024

2. Modeling Multiple X-Ray Reflection in Super-Eddington Winds.

Author

Zhang, Zijian, Thomsen, Lars Lund, Dai, Lixin, Reynolds, Christopher S., García, Javier A., Kara, Erin, Connors, Riley, Masterson, Megan, Yao, Yuhan, and Dauser, Thomas

Subjects

X-ray binaries, X-ray reflection, MONTE Carlo method, ACTIVE galactic nuclei, BLACK holes

Abstract

It has been recently discovered that a few super-Eddington sources undergoing black hole super-Eddington accretion exhibit X-ray reflection signatures. In such new systems, one expects the coronal X-ray emissions to be mainly reflected by optically thick super-Eddington winds instead of thin disks. In this paper, we conduct a series of general-relativistic ray-tracing and Monte Carlo radiative transfer simulations to model the X-ray reflection signatures, especially the characteristic Fe K α line, produced from super-Eddington accretion flows around nonspinning black holes. In particular, we allow the photons emitted by a lamppost corona to be reflected multiple times in a cone-like funnel surrounded by fast winds. We find that the Fe K α line profile most sensitively depends on the wind kinematics, while its exact shape also depends on the funnel open angle and corona height. Furthermore, very interestingly, we find that the Fe K α line can have a prominent double-peak profile in certain parameter spaces, even with a face-on orientation. Moreover, we compare the Fe K α line profiles produced from super-Eddington and thin disks and show that such lines can provide important insights into the understanding of black hole systems undergoing super-Eddington accretion. [ABSTRACT FROM AUTHOR]

Published

2024

3. Characterizing the Broadband Reflection Spectrum of MAXI J1803-298 during Its 2021 Outburst with NuSTAR and NICER.

Author

Adegoke, Oluwashina K., García, Javier A., Connors, Riley M. T., Ding, Yuanze, Mastroserio, Guglielmo, Steiner, James F., Ingram, Adam, Harrison, Fiona A., Tomsick, John A., Kara, Erin, Mehdipour, Missagh, Fukumura, Keigo, Stern, Daniel, Ubach, Santiago, and Lucchini, Matteo

Subjects

ATOMIC physics, RADIATION, BLACK holes, REFLECTANCE spectroscopy, LIGHT curves, ACCRETION disks

Abstract

MAXI J1803-298 is a transient black hole candidate discovered in 2021 May during an outburst that lasted several months. Multiple X-ray observations reveal recurring "dipping" intervals in several of its light curves, particularly during the hard/intermediate states, with a typical recurrence period of ∼7 hr. We report analysis of four NuSTAR observations of the source, supplemented with NICER data where available, over the duration of the outburst evolution covering the hard, intermediate, and the soft states. Reflection spectroscopy reveals the black hole to be rapidly spinning (a * = 0.990 ± 0.001) with a near edge-on viewing angle (i = 70° ± 1°). Additionally, we show that the light-curve dips are caused by photoelectric absorption from a moderately ionized absorber whose origin is not fully understood, although it is likely linked to material from the companion star impacting the outer edges of the accretion disk. We further detect absorption lines in some of the spectra, potentially associated with Fe xxv and Fe xxvi, indicative of disk winds with moderate to extreme velocities. During the intermediate state and just before transitioning into the soft state, the source showed a sudden flux increase, which we found to be dominated by soft disk photons and consistent with the filling of the inner accretion disk, at the onset of state transition. In the soft state, we show that models of disk self-irradiation provide a better fit and a preferred explanation to the broadband reflection spectrum, consistent with previous studies of other accreting sources. [ABSTRACT FROM AUTHOR]

Published

2024

4. Proof of principle X-ray reflection mass measurement of the black hole in H1743−322.

Author

Nathan, Edward, Ingram, Adam, Steiner, James F, König, Ole, Dauser, Thomas, Lucchini, Matteo, Mastroserio, Guglielmo, van der Klis, Michiel, García, Javier A, Connors, Riley, Kara, Erin, and Wang, Jingyi

Subjects

BINARY black holes, X-ray reflection, BLACK holes, ACCRETION disks, CROWDSOURCING

Abstract

The black hole X-ray binary H1743−322 lies in a region of the Galaxy with high extinction, and therefore it has not been possible to make a dynamical mass measurement. In this paper, we make use of a recent model which uses the X-ray reflection spectrum to constrain the ratio of the black hole mass to the source distance. By folding in a reported distance measurement, we are able to estimate the mass of the black hole to be |$12\pm 2~\text{M}_\odot {}$| (⁠|$1\sigma$| credible interval). We are then able to revise a previous disc continuum fitting estimate of black hole spin |$a_*$| (previously relying on a population mass distribution) using our new mass constraint, finding |$a_*=0.47\pm 0.10$|⁠. This work is a proof of principle demonstration of the method, showing it can be used to find the mass of black holes in X-ray binaries. [ABSTRACT FROM AUTHOR]

Published

2024

5. A systematic study of the ultra-fast outflow responses to luminosity variations in active galactic nuclei.

Author

Xu, Yerong, Pinto, Ciro, Rogantini, Daniele, Barret, Didier, Bianchi, Stefano, Guainazzi, Matteo, Ebrero, Jacobo, Alston, William, Kara, Erin, and Cusumano, Giancarlo

Subjects

ACTIVE galactic nuclei, SOFT X rays, HARD X-rays, SEYFERT galaxies, UNIDENTIFIED flying objects

Abstract

Context. Ultra-fast outflows (UFOs) have been revealed in a large number of active galactic nuclei (AGN) in the past two decades. Their extreme velocities and high ionization states make them a promising candidate for AGN feedback on the evolution of the host galaxy. However, their exact underlying driving mechanism is not yet fully understood. Aims. Given that the variability of UFOs may be used to distinguish among different launching mechanisms, we aim to search for and characterize the responses of the UFO properties to the variable irradiating luminosity. Methods. We perform a high-resolution time- and flux-resolved spectroscopy of archival XMM-Newton observations on six highly accreting narrow-line Seyfert 1 (NLS1) galaxies, selected by UFO detection and sufficient exposure times. The state-of-the-art methods of the blind Gaussian line scan and photoionization model scan are used to identify UFO solutions. We search for ionized winds and investigate the structure of ionized winds and their responses to the luminosity variations. The location, density, and kinetic energy of UFOs are estimated as well. Results. The powerful photoionization model scan reveals three previously unreported UFOs in RE J1034+396, PG 1244+026 and I ZW 1 with a detection significance above 3σ, and two new warm absorbers (WAs) in RE J1034+396. Five out of six (83%) AGN in our sample host multi-phase ionized winds, where outflows in I ZW 1 are energy-conserved. The relatively low-ionization entrained UFOs are discovered in four (66%) AGN of our sample, supporting the shocked outflow interpretation for ionized winds in AGN. We notice that two out of seven (28%) UFOs in our sample seem to respond to the radiation field and three (43%) UFOs hint at a radiatively accelerated nature, requiring further observations. Combined with published works, we do not find any correlations between UFO responses and AGN properties except for a tentative (∼1.8σ) anti-correlation between the UFO acceleration and the Eddington ratio, to be confirmed by further observations and an enlarged sample. The kinetic energy of UFOs, mostly detected in soft X-rays, is found to have a large uncertainty. We, therefore, cannot conclude whether soft X-ray UFOs have sufficient energy to drive the AGN feedback, although they are very promising based on some reasonable assumptions. The primary UFO in I ZW 1 (detected in the hard X-ray) is the only case in our sample to possess conclusively sufficient energy to affect the host galaxy. [ABSTRACT FROM AUTHOR]

Published

2024

6. Evidence for a dynamic corona in the short-term time lags of black hole X-ray binary MAXI J1820+070.

Author

Bollemeijer, Niek, Uttley, Phil, Basak, Arkadip, Ingram, Adam, van den Eijnden, Jakob, Alabarta, Kevin, Altamirano, Diego, Arzoumanian, Zaven, Buisson, Douglas J K, Fabian, Andrew C, Ferrara, Elizabeth, Gendreau, Keith, Homan, Jeroen, Kara, Erin, Markwardt, Craig, Remillard, Ronald A, Sanna, Andrea, Steiner, James F, Tombesi, Francesco, and Wang, Jingyi

Subjects

BINARY black holes, X-ray binaries, ACCRETION disks, NEUTRON stars, ENERGY bands, HARD X-rays

Abstract

In X-ray observations of hard state black hole X-ray binaries (BHXRBs), rapid variations in accretion disc and coronal power-law emission are correlated and show Fourier-frequency-dependent time lags. On short (⁠|$\sim$| 0.1 s) time-scales, these lags are thought to be due to reverberation and therefore may depend strongly on the geometry of the corona. Low-frequency quasi-periodic oscillations (QPOs) are variations in X-ray flux that have been suggested to arise because of geometric changes in the corona, possibly due to general relativistic Lense–Thirring precession. Therefore, one might expect the short-term time lags to vary on the QPO time-scale. We performed novel spectral-timing analyses on Neutron Star Interior Composition ExploreR observations of the BHXRB MAXI J1820+070 during the hard state of its outburst in 2018 to investigate how the short-term time lags between a disc-dominated and a coronal power-law-dominated energy band vary on different time-scales. Our method can distinguish between variability due to the QPO and broad-band noise, and we find a linear correlation between the power-law flux and lag amplitude that is strongest at the QPO frequency. We also introduce a new method to resolve the QPO signal and determine the QPO phase dependence of the flux and lag variations, finding that both are very similar. Our results are consistent with a geometric origin of QPOs, but also provide evidence for a dynamic corona with a geometry varying in a similar way over a broad range of time-scales, not just the QPO time-scale. [ABSTRACT FROM AUTHOR]

Published

2024

7. Constraints on the ultrafast outflows in the narrow-line Seyfert 1 galaxy Mrk 1044 from high-resolution time- and flux-resolved spectroscopy.

Author

Xu, Yerong, Pinto, Ciro, Rogantini, Daniele, Bianchi, Stefano, Guainazzi, Matteo, Kara, Erin, Jin, Chichuan, and Cusumano, Giancarlo

Subjects

SEYFERT galaxies, ACTIVE galactic nuclei, TIME-resolved spectroscopy, GALAXY spectra, BLACK holes, X-ray spectroscopy, KINETIC energy, GALACTIC evolution

Abstract

Ultrafast outflows (UFOs) have been revealed in a large number of active galactic nuclei (AGN) and are regarded as promising candidates for AGN feedback on the host galaxy. The nature and launching mechanism of UFOs are not yet fully understood. Here we perform a time- and flux-resolved X-ray spectroscopy on four XMM–Newton observations of a highly accreting narrow-line Seyfert 1 (NLS1) galaxy, Mrk 1044, to study the dependence of the outflow properties on the source luminosity. We find that the UFO in Mrk 1044 responds to the source variability quickly and its velocity increases with the X-ray flux, suggesting a high-density (⁠|$10^{9}\!-\!4.5\times 10^{12}\, \mathrm{cm}^{-3}$|⁠) and radiatively driven outflow, launched from the region within a distance of |$98\!-\!6600\, R_\mathrm{g}$| from the black hole. The kinetic energy of the UFO is conservatively estimated (⁠|$L_\mathrm{UFO}\sim 4.4~{{\ \rm per\ cent}}\, L_\mathrm{Edd}$|⁠), reaching the theoretical criterion to affect the evolution of the host galaxy. We also find that emission lines, from a large-scale region, have a blueshift of 2700–4500 km s−1 in the spectra of Mrk 1044, which is rarely observed in AGN. By comparing with other sources, we propose a correlation between the blueshift of emission lines and the source accretion rate, which can be verified by a future sample study. [ABSTRACT FROM AUTHOR]

Published

2023

8. Investigating the Impact of Vertically Extended Coronae on X-Ray Reverberation Mapping.

Author

Lucchini, Matteo, Mastroserio, Guglielmo, Wang, Jingyi, Kara, Erin, Ingram, Adam, Garcia, Javier, Dauser, Thomas, van der Klis, Michiel, König, Ole, Lewin, Collin, Nathan, Edward, and Panagiotou, Christos

Subjects

BLACK holes, HARD X-rays, X-ray binaries, HIGH temperature plasmas, X-rays, SOUND reverberation

Abstract

Accreting black holes commonly exhibit hard X-ray emission, originating from a region of hot plasma near the central engine referred to as the corona. The origin and geometry of the corona are poorly understood, and models invoking either inflowing or outflowing material (or both) can successfully explain only parts of the observed phenomenology. In particular, recent works indicate that the time-averaged and variability property might originate in different regions of the corona. In this paper we present a model designed to move beyond the lamppost paradigm, with the goal of accounting for the vertical extent of the corona. In particular, we highlight the impact of including self-consistently a second lamppost, mimicking, for example, an extended jet base. We fully include the effect that the second source has on the time-dependent disk ionization, reflection spectrum, and reverberation lags. We also present an application of this new model to NICER observations of the X-ray binary MAXI J1820+070 near its hard-to-soft state transition. We demonstrate that in these observations, a vertically extended corona can capture both spectral and timing properties, while a single-lamppost model can not. In this scenario, the illumination responsible for the time-averaged spectrum originates close to the black hole, while the variability is likely associated with the ballistic jet. [ABSTRACT FROM AUTHOR]

Published

2023

9. UV–Optical Disk Reverberation Lags despite a Faint X-Ray Corona in the Active Galactic Nucleus Mrk 335.

Author

Kara, Erin, Barth, Aaron J., Cackett, Edward M., Gelbord, Jonathan, Montano, John, Li, Yan-Rong, Santana, Lisabeth, Horne, Keith, Alston, William N., Buisson, Douglas, Chelouche, Doron, Du, Pu, Fabian, Andrew C., Fian, Carina, Gallo, Luigi, Goad, Michael R., Grupe, Dirk, González Buitrago, Diego H., Hernández Santisteban, Juan V., and Kaspi, Shai

Subjects

*ACTIVE galactic nuclei, *X-rays

Abstract

We present the first results from a 100-day Swift, NICER, and ground-based X-ray–UV–optical reverberation mapping campaign of the Narrow-line Seyfert 1 Mrk 335, when it was in an unprecedented low X-ray flux state. Despite dramatic suppression of the X-ray variability, we still observe UV–optical lags as expected from disk reverberation. Moreover, the UV–optical lags are consistent with archival observations when the X-ray luminosity was >10 times higher. Interestingly, both low- and high-flux states reveal UV–optical lags that are 6–11 times longer than expected from a thin disk. These long lags are often interpreted as due to contamination from the broad line region; however the u- band excess lag (containing the Balmer jump from the diffuse continuum) is less prevalent than in other active galactic nuclei. The Swift campaign showed a low X-ray-to-optical correlation (similar to previous campaigns), but NICER and ground-based monitoring continued for another 2 weeks, during which the optical rose to the highest level of the campaign, followed ∼10 days later by a sharp rise in X-rays. While the low X-ray countrate and relatively large systematic uncertainties in the NICER background make this measurement challenging, if the optical does lead X-rays in this flare, this indicates a departure from the zeroth-order reprocessing picture. If the optical flare is due to an increase in mass accretion rate, this occurs on much shorter than the viscous timescale. Alternatively, the optical could be responding to an intrinsic rise in X-rays that is initially hidden from our line of sight. [ABSTRACT FROM AUTHOR]

Published

2023

10. AGN STORM 2. III. A NICER View of the Variable X-Ray Obscurer in Mrk 817.

Author

Partington, Ethan R., Cackett, Edward M., Kara, Erin, Kriss, Gerard A., Barth, Aaron J., De Rosa, Gisella, Homayouni, Y., Horne, Keith, Landt, Hermine, Zoghbi, Abderahmen, Edelson, Rick, Arav, Nahum, Boizelle, Benjamin D., Bentz, Misty C., Brotherton, Michael S., Byun, Doyee, Dalla Bontà, Elena, Dehghanian, Maryam, Du, Pu, and Fian, Carina

Subjects

X-rays, SPACE telescopes, ACTIVE galactic nuclei, SEYFERT galaxies

Abstract

The AGN STORM 2 Collaboration targeted the Seyfert 1 galaxy Mrk 817 for a year-long multiwavelength, coordinated reverberation mapping campaign including Hubble Space Telescope, Swift, XMM-Newton, NICER, and ground-based observatories. Early observations with NICER and XMM revealed an X-ray state 10 times fainter than historical observations, consistent with the presence of a new dust-free, ionized obscurer. The following analysis of NICER spectra attributes variability in the observed X-ray flux to changes in both the column density of the obscurer by at least one order of magnitude (N H ranges from 2.85 − 0.33 + 0.48 × 10 22 cm − 2 to 25.6 − 3.5 + 3.0 × 10 22 cm − 2 ) and the intrinsic continuum brightness (the unobscured flux ranges from 10−11.8 to 10−10.5 erg s−1 cm−2). While the X-ray flux generally remains in a faint state, there is one large flare during which Mrk 817 returns to its historical mean flux. The obscuring gas is still present at lower column density during the flare, but it also becomes highly ionized, increasing its transparency. Correlation between the column density of the X-ray obscurer and the strength of UV broad absorption lines suggests that the X-ray and UV continua are both affected by the same obscuration, consistent with a clumpy disk wind launched from the inner broad-line region. [ABSTRACT FROM AUTHOR]

Published

2023

11. On measuring the Hubble constant with X-ray reverberation mapping of active galactic nuclei.

Author

Ingram, Adam, Mastroserio, Guglielmo, van der Klis, Michiel, Nathan, Edward, Connors, Riley, Dauser, Thomas, García, Javier A, Kara, Erin, König, Ole, Lucchini, Matteo, and Wang, Jingyi

Subjects

ACTIVE galactic nuclei, HUBBLE constant, COSMIC background radiation, X-rays, X-ray spectra, SOUND reverberation, REVERBERATION time

Abstract

We show that X-ray reverberation mapping can be used to measure the distance to type 1 active galactic nuclei (AGNs). This is because X-ray photons originally emitted from the 'corona' close to the black hole irradiate the accretion disc and are reemitted with a characteristic 'reflection' spectrum that includes a prominent ∼6.4 keV iron emission line. The shape of the reflection spectrum depends on the irradiating flux, and the light-crossing delay between continuum photons observed directly from the corona and the reflected photons constrain the size of the disc. Simultaneously modelling the X-ray spectrum and the time delays between photons of different energies therefore constrains the intrinsic reflected luminosity, and the distance follows from the observed reflected flux. Alternatively, the distance can be measured from the X-ray spectrum alone if the black hole mass is known. We develop a new model of our reltrans X-ray reverberation mapping package, called rtdist , that has distance as a model parameter. We simulate a synthetic observation that we fit with our new model, and find that this technique applied to a sample of ∼25 AGNs can be used to measure the Hubble constant with a 3σ statistical uncertainty of |${\sim} 6\,{\rm km}\,{\rm s}^{-1}\, {\rm Mpc}^{-1}$|⁠. Since the technique is completely independent of the traditional distance ladder and the cosmic microwave background radiation, it has the potential to address the current tension between them. We discuss sources of modelling uncertainty, and how they can be addressed in the near future. [ABSTRACT FROM AUTHOR]

Published

2022

12. Modelling correlated variability in accreting black holes: the effect of high density and variable ionization on reverberation lags.

Author

Mastroserio, Guglielmo, Ingram, Adam, Wang, Jingyi, García, Javier A, van der Klis, Michiel, Cavecchi, Yuri, Connors, Riley, Dauser, Thomas, Harrison, Fiona, Kara, Erin, König, Ole, and Lucchini, Matteo

Subjects

STELLAR black holes, BLACK holes, ACCRETION disks, ACTIVE galactic nuclei, ACCRETION (Astrophysics), ELECTRON density, X-ray binaries

Abstract

We present a new release of the reltrans model to fit the complex cross-spectrum of accreting black holes as a function of energy. The model accounts for continuum lags and reverberation lags self-consistently in order to consider the widest possible range of X-ray variability time-scales. We introduce a more self-consistent treatment of the reverberation lags, accounting for how the time variations of the illuminating flux change the ionization level of the accretion disc. This process varies the shape of the reflection spectrum in time causing an additional source of lags besides the light crossing delay. We also consider electron densities in the accretion disc up to 1020 cm−3, which are found in most of the stellar mass black holes and in some active galactic nuclei. These high densities increase the amplitude of the reverberation lags below 1 keV since the reflection flux enhances in the same energy range. In addition, we investigate the properties of hard lags produced by variations in the power-law index of the continuum spectrum, which can be interpreted as due to roughly |$3{{\ \rm per\ cent}}$| variability in the corona's optical depth and temperature. As a test case, we simultaneously fit the lag-energy spectra in a wide range of Fourier frequency for the black hole candidate MAXI J1820+0701820 observed with NICER. The best fit shows how the reverberation lags contribute even at the longer time-scales where the hard lags are important. This proves the importance of modelling these two lags together and self-consistently in order to constrain the parameters of the system. [ABSTRACT FROM AUTHOR]

Published

2021

13. High Density Reflection Spectroscopy – II. The density of the inner black hole accretion disc in AGN.

Author

Jiang, Jiachen, Fabian, Andrew C, Dauser, Thomas, Gallo, Luigi, García, Javier A, Kara, Erin, Parker, Michael L, Tomsick, John A, Walton, Dominic J, and Reynolds, Christopher S

Subjects

REFLECTANCE spectroscopy, BLACK holes, ACCRETION (Astrophysics), SEYFERT galaxies, DENSITY, GRAVITATIONAL lenses, X-ray spectra

Abstract

We present a high density disc reflection spectral analysis of a sample of 17 Seyfert 1 galaxies to study the inner disc densities at different black hole mass scales and accretion rates. All the available XMM–Newton observations in the archive are used. OM observations in the optical/UV band are used to estimate their accretion rates. We find that 65 per cent of sources in our sample show a disc density significantly higher than n e = 1015 cm−3, which was assumed in previous reflection-based spectral analyses. The best-fitting disc densities show an anticorrelation with black hole mass and mass accretion rate. High density disc reflection model can successfully explain the soft excess emission and significantly reduce inferred iron abundances. We also compare our black hole spin and disc inclination angle measurements with previous analyses. [ABSTRACT FROM AUTHOR]

Published

2019