Your search keyword '"Sánchez Fernández C"' showing total 5 results

1. Minioutbursts in XTE J1859+226

Author

Zurita, C., Casares, J., RodrÍguez-Gil, P., Shahbaz, T., Charles, P. A., Sánchez-Fernández, C., Castro-Tirado, A. J., Abbot, T., Hakala, P., Castro-Tirado, A. J., editor, Greiner, J., editor, and Paredes, J. M., editor

Published

2001

2. The black hole binary V404 Cygni: a highly accreting obscured AGN analogue.

Author

Motta, S. E., Kajava, J. J. E., Sánchez-Fernández, C., Giustini, M., and Kuulkers, E.

Subjects

ACTIVE galactic nuclei, LUMINOSITY, X-ray diffraction, BINARY black holes, P Cygni stars

Abstract

Typical black hole binaries in outburst show spectral states and transitions, characterized by a clear connection between the inflow on to the black hole and outflows from its vicinity. The transient stellar mass black hole binary V404 Cyg apparently does not fit in this picture. Its outbursts are characterized by intense flares and intermittent plateau and low-luminosity states, with a dynamical intensity range of several orders ofmagnitude on time-scales of hours. During the 2015 June-July X-ray outburst a joint Swift and INTEGRAL observing campaign captured V404 Cyg in one of these plateau states. The simultaneous Swift/XRT + INTRGRAL/JEM-X + INTEGRAL/IBIS-ISGRI spectrum is reminiscent of that of obscured/absorbed active galactic nuclei (AGN). It can be modelled as a Comptonization spectrum, heavily absorbed by a partial covering, high column density material (NH ≈ 1-3 × 1024 cm-2), and a dominant reprocessed component, including a narrow iron Kα line. Such spectral distribution can be produced by a geometrically thick accretion flow able to launch a clumpy outflow, likely responsible for both the high intrinsic absorption and the intense reprocessed emission observed. Similarly to what happens in certain obscured AGN, the low-flux states might not be (solely) related to a decrease in the intrinsic luminosity, but could instead be caused by an almost complete obscuration of the inner accretion flow. [ABSTRACT FROM AUTHOR]

Published

2017

3. Hard X-ray variability of V404 Cygni during the 2015 outburst.

Author

Sánchez-Fernández, C., Kajava, J. J. E., Motta, S. E., and Kuulkers, E.

Subjects

*HARD X-rays, *BINARY black holes, *X-ray spectra, *SOFT X rays, *HOT carriers, *LIGHT curves

Abstract

Aims. Hard X-ray spectra of black hole binaries (BHB) are produced by Comptonization of soft seed photons by hot electrons near the black hole. The slope of the resulting energy spectra is governed by two main parameters: the electron temperature (Te) and optical depth (τ) of the emitting plasma. Given the extreme brightness of V404 Cyg during the 2015 outburst, we aim to constrain the source spectral properties using an unprecedented time resolution in hard X-rays, and to monitor the evolution of Te and τ over the outburst. Methods. We have extracted and analysed 602 X-ray spectra of V404 Cyg obtained by the IBIS/ISGRI instrument on-board INTEGRAL during the 2015 June outburst, using effective integration times ranging between 8 and 176 000 s. We fitted the resulting spectra in the 20-200 keV energy range. Results. We find that while the light curve and soft X-ray spectra of V404 Cyg are remarkably different from those of other BHBs, the spectral evolution of V404 Cyg in hard X-rays and the relations between the spectral parameters are consistent with those observed in other BHBs. We identify a hard branch in which the Te is anti-correlated with the hard X-ray flux, and a soft flaring branch in which the relation reverses. In addition, we find that during long X-ray plateaus detected at intermediate fluxes, the thermal Comptonization models fail to describe the spectra. However, the statistics improve if we allow NH to vary freely in the fits to these spectra. Conclusions. We conclude that the hard branch in V404 Cyg is analogous to the canonical hard state of BHBs. V404 Cyg never seems to enter the canonical soft state, although the soft flaring branch bears resemblance to the BHB intermediate state and ultraluminous state. The X-ray plateaus are likely the result of absorption by a Compton-thick outflow (NH ≥ 1024 cm-22) which reduces the observed flux by a factor of about 10. Variable covering of the central source by this Compton-thick material may be the reason for the complicated light curve variability, rather than intrinsic source variability. [ABSTRACT FROM AUTHOR]

Published

2017

4. The X-ray transient XTE J1859 + 226 in outburst and quiescence.

Author

Zurita, C., Sánchez-Fernández, C., Casares, J., Charles, P.A., Abbott, T.M., Hakala, P., Rodríguez-Gil, P., Bernabei, S., Piccioni, A., Guarnieri, A., Bartolini, C., Masetti, N., Shahbaz, T., Castro-Tirado, A., and Henden, A.

Subjects

*PHOTOMETRY, *SPECTRUM analysis, *GAS bursts

Abstract

We present optical photometry and spectroscopy of the X-ray transient XTE J1859+226, obtained during outburst and its subsequent decay to quiescence. Both the X-ray and optical properties are very similar to those of well-studied black hole soft X-ray transients. We have detected three mini-outbursts, when XTE J1859+226 was approaching quiescence, as has been previously detected in the soft X-ray transients GRO J0422+32 and GRS 1009–45. By 2000 August 24 the system had reached quiescence with R= 22.48 ± 0.07. The estimated distance to the source is ∼11 kpc. Photometry taken during quiescence shows a sinusoidal modulation with a peak to peak amplitude of about 0.4 mag. A period analysis suggests that periods from 0.28 to 0.47 d are equally possible at the 68 per cent confidence level. The amplitude of the quiescent light curve and the relatively low ratio of X-ray to optical flux indicate that the binary inclination should be high. The measured colours during the outburst allow us to obtain the basic properties of the disc, which agrees well with irradiated disc model predictions. [ABSTRACT FROM AUTHOR]

Published

2002

5. The INTEGRAL view on black hole X-ray binaries.

Author

Motta, S.E., Rodriguez, J., Jourdain, E., Del Santo, M., Belanger, G., Cangemi, F., Grinberg, V., Kajava, J.J.E., Kuulkers, E., Malzac, J., Pottschmidt, K., Roques, J.P., Sánchez-Fernández, C., and Wilms, J.

Subjects

*BINARY black holes, *X-ray binaries, *SCIENTIFIC literature, *HARD X-rays, *SOFT X rays, *INTEGRALS

Abstract

INTEGRAL is an ESA mission in fundamental astrophysics that was launched in October 2002. It has been in orbit for over 18 years, during which it has been observing the high-energy sky with a set of instruments specifically designed to probe the emission from hard X-ray and soft γ -ray sources. This paper is devoted to the subject of black hole binaries, which are among the most important sources that populate the high-energy sky. We present a review of the scientific literature based on INTEGRAL data, which has significantly advanced our knowledge in the field of relativistic astrophysics. We briefly summarise the state-of-the-art of the study of black hole binaries, with a particular focus on the topics closer to the INTEGRAL science. We then give an overview of the results obtained by INTEGRAL and by other observatories on a number of sources of importance in the field. Finally, we review the main results obtained over the past 18 years on all the black hole binaries that INTEGRAL has observed. We conclude with a summary of the main contributions of INTEGRAL to the field, and on the future perspectives. [ABSTRACT FROM AUTHOR]

Published

2021