Your search keyword '"F. Fuerst"' showing total 5 results

1. THE SOFT STATE OF CYGNUS X-1 OBSERVED WITH NuSTAR: A VARIABLE CORONA AND A STABLE INNER DISK.

Author

D. J. Walton, J. A. Tomsick, K. K. Madsen, V. Grinberg, D. Barret, S. E. Boggs, F. E. Christensen, M. Clavel, W. W. Craig, A. C. Fabian, F. Fuerst, C. J. Hailey, F. A. Harrison, J. M. Miller, M. L. Parker, F. Rahoui, D. Stern, L. Tao, J. Wilms, and W. Zhang

Subjects

*BLACK holes, *X-rays, *BINARY stars, *ACCRETION disks, *BINARY systems (Astronomy)

Abstract

We present a multi-epoch hard X-ray analysis of Cygnus X-1 in its soft state based on four observations with the Nuclear Spectroscopic Telescope Array (NuSTAR). Despite the basic similarity of the observed spectra, there is clear spectral variability between epochs. To investigate this variability, we construct a model incorporating both the standard disk-corona continuum and relativistic reflection from the accretion disk, based on prior work on Cygnus X-1, and apply this model to each epoch independently. We find excellent consistency for the black hole spin and the iron abundance of the accretion disk, which are expected to remain constant on observational timescales. In particular, we confirm that Cygnus X-1 hosts a rapidly rotating black hole, , in broad agreement with the majority of prior studies of the relativistic disk reflection and constraints on the spin obtained through studies of the thermal accretion disk continuum. Our work also confirms the apparent misalignment between the inner disk and the orbital plane of the binary system reported previously, finding the magnitude of this warp to be ∼10°–15°. This level of misalignment does not significantly change (and may even improve) the agreement between our reflection results and the thermal continuum results regarding the black hole spin. The spectral variability observed by NuSTAR is dominated by the primary continuum, implying variability in the temperature of the scattering electron plasma. Finally, we consistently observe absorption from ionized iron at ∼6.7 keV, which varies in strength as a function of orbital phase in a manner consistent with the absorbing material being an ionized phase of the focused stellar wind from the supergiant companion star. [ABSTRACT FROM AUTHOR]

Published

2016

2. A HARD X-RAY STUDY OF THE ULTRALUMINOUS X-RAY SOURCE NGC 5204 X-1 WITH NuSTAR AND XMM-NEWTON.

Author

E. S. Mukherjee, D. J. Walton, M. Bachetti, F. A. Harrison, D. Barret, E. Bellm, S. E. Boggs, F. E. Christensen, W. W. Craig, A. C. Fabian, F. Fuerst, B. W. Grefenstette, C. J. Hailey, K. K. Madsen, M. J. Middleton, J. M. Miller, V. Rana, D. Stern, and W. Zhang

Subjects

*SPIRAL galaxies, *X-ray astronomy, *ASTRONOMICAL spectroscopy, *LUMINOSITY, *BLACK holes, *ACCRETION (Astrophysics), *ACCRETION disks

Abstract

We present the results from coordinated X-ray observations of the ultraluminous X-ray source NGC 5204 X-1 performed by the Nuclear Spectroscopic Telescope Array and XMM-Newton in early 2013. These observations provide the first detection of NGC 5204 X-1 above , extending the broadband coverage to . The observations were carried out in two epochs separated by approximately 10 days, and showed little spectral variation with an observed luminosity of erg s−1. The broadband spectrum robustly confirms the presence of a clear spectral downturn above seen in some previous observations. This cutoff is inconsistent with the standard low/hard state seen in Galactic black hole binaries, as would be expected from an intermediate-mass black hole accreting at significantly sub-Eddington rates given the observed luminosity. The continuum is apparently dominated by two optically thick thermal-like components, potentially accompanied by a faint high-energy tail. The broadband spectrum is likely associated with an accretion disk that differs from a standard Shakura & Sunyaev thin disk. [ABSTRACT FROM AUTHOR]

Published

2015

3. NUSTAR AND SUZAKU X-RAY SPECTROSCOPY OF NGC 4151: EVIDENCE FOR REFLECTION FROM THE INNER ACCRETION DISK.

Author

M. L. Keck, L. W. Brenneman, D. R. Ballantyne, F. Bauer, S. E. Boggs, F. E. Christensen, W. W. Craig, T. Dauser, M. Elvis, A. C. Fabian, F. Fuerst, J. García, B. W. Grefenstette, C. J. Hailey, F. A. Harrison, G. Madejski, A. Marinucci, G. Matt, C. S. Reynolds, and D. Stern

Subjects

*ACCRETION (Astrophysics), *ACCRETION in galactic x-ray sources, *ACCRETION disks, *BLACK holes, *ACTIVE galaxies, *SEYFERT galaxies

Abstract

We present X-ray timing and spectral analyses of simultaneous 150 ks Nuclear Spectroscopic Telescope Array (NuSTAR) and Suzaku X-ray observations of the Seyfert 1.5 galaxy NGC 4151. We disentangle the continuum emission, absorption, and reflection properties of the active galactic nucleus (AGN) by applying inner accretion disk reflection and absorption-dominated models. With a time-averaged spectral analysis, we find strong evidence for relativistic reflection from the inner accretion disk. We find that relativistic emission arises from a highly ionized inner accretion disk with a steep emissivity profile, which suggests an intense, compact illuminating source. We find a preliminary, near-maximal black hole spin accounting for statistical and systematic modeling errors. We find a relatively moderate reflection fraction with respect to predictions for the lamp post geometry, in which the illuminating corona is modeled as a point source. Through a time-resolved spectral analysis, we find that modest coronal and inner disk reflection (IDR) flux variation drives the spectral variability during the observations. We discuss various physical scenarios for the IDR model and we find that a compact corona is consistent with the observed features. [ABSTRACT FROM AUTHOR]

Published

2015

4. NUSTAR, XMM-NEWTON, AND SUZAKU OBSERVATIONS OF THE ULTRALUMINOUS X-RAY SOURCE HOLMBERG II X-1.

Author

D. J. Walton, M. J. Middleton, V. Rana, J. M. Miller, F. A. Harrison, A. C. Fabian, M. Bachetti, D. Barret, S. E. Boggs, F. E. Christensen, W. W. Craig, F. Fuerst, B. W. Grefenstette, C. J. Hailey, K. K. Madsen, D. Stern, and W. Zhang

Subjects

*RUTHERFORD backscattering spectrometry, *FERMI Gamma-ray Space Telescope (Spacecraft), *GAMMA ray telescopes, *BLACK holes, *COMPACT objects (Astronomy)

Abstract

We present the first broadband 0.3–25.0 keV X-ray observations of the bright ultraluminous X-ray source (ULX) Holmberg II X-1, performed by NuSTAR, XMM-Newton, and Suzaku in 2013 September. The NuSTAR data provide the first observations of Holmberg II X-1 above 10 keV and reveal a very steep high-energy spectrum, similar to other ULXs observed by NuSTAR to date. These observations further demonstrate that ULXs exhibit spectral states that are not typically seen in Galactic black hole binaries. Comparison with other sources implies that Holmberg II X-1 accretes at a high fraction of its Eddington accretion rate and possibly exceeds it. The soft X-ray spectrum ( keV) appears to be dominated by two blackbody-like emission components, the hotter of which may be associated with an accretion disk. However, all simple disk models under-predict the NuSTAR data above ∼10 keV and require an additional emission component at the highest energies probed, implying the NuSTAR data does not fall away with a Wien spectrum. We investigate physical origins for such an additional high-energy emission component and favor a scenario in which the excess arises from Compton scattering in a hot corona of electrons with some properties similar to the very high state seen in Galactic binaries. The observed broadband 0.3–25.0 keV luminosity inferred from these epochs is erg s−1, typical for Holmberg II X-1, with the majority of this flux (∼90%) emitted below 10 keV. [ABSTRACT FROM AUTHOR]

Published

2015

5. DETERMINING THE COVERING FACTOR OF COMPTON-THICK ACTIVE GALACTIC NUCLEI WITH NuSTAR.

Author

M. Brightman, M. Baloković, D. Stern, P. Arévalo, D. R. Ballantyne, F. E. Bauer, S. E. Boggs, W. W. Craig, F. E. Christensen, A. Comastri, F. Fuerst, P. Gandhi, C. J. Hailey, F. A. Harrison, R. C. Hickox, M. Koss, S. LaMassa, S. Puccetti, E. Rivers, and R. Vasudevan

Subjects

*GALAXIES, *ACTIVE galactic nuclei, *WAVELENGTHS, *COMPTON scattering, *EXTRAGALACTIC distances, *REDSHIFT

Abstract

The covering factor of Compton-thick (CT) obscuring material associated with the torus in active galactic nuclei (AGNs) is at present best understood through the fraction of sources exhibiting CT absorption along the line of sight (NH > 1.5 × 1024 cm−2) in the X-ray band, which reveals the average covering factor. Determining this CT fraction is difficult, however, due to the extreme obscuration. With its spectral coverage at hard X-rays (>10 keV), Nuclear Spectroscopic Telescope Array (NuSTAR) is sensitive to the AGNs covering factor since Compton scattering of X-rays off optically thick material dominates at these energies. We present a spectral analysis of 10 AGNs observed with NuSTAR where the obscuring medium is optically thick to Compton scattering, so-called CT AGNs. We use the torus models of Brightman & Nandra that predict the X-ray spectrum from reprocessing in a torus and include the torus opening angle as a free parameter and aim to determine the covering factor of the CT gas in these sources individually. Across the sample we find mild to heavy CT columns, with NH measured from 1024 to 1026 cm−2, and a wide range of covering factors, where individual measurements range from 0.2 to 0.9. We find that the covering factor, fc, is a strongly decreasing function of the intrinsic 2–10 keV luminosity, LX, where fc = (−0.41 ± 0.13)log10(LX/erg s−1)+18.31 ± 5.33, across more than two orders of magnitude in LX (1041.5–1044 erg s−1). The covering factors measured here agree well with the obscured fraction as a function of LX as determined by studies of local AGNs with LX > 1042.5 erg s−1. [ABSTRACT FROM AUTHOR]

Published

2015