Sara Motta

Quasi periodic oscillations in black hole binaries

Astronomische Nachrichten Wiley 337:4‐5 (2016) 398-403

Spectral and timing evolution of the bright failed outburst of the transient black hole Swift J174510.8−262411

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 456:4 (2016) 3585-3595

Authors:

M Del Santo, TM Belloni, JA Tomsick, B Sbarufatti, M Cadolle Bel, P Casella, A Castro-Tirado, S Corbel, V Grinberg, J Homan, E Kalemci, S Motta, T Muñoz-Darias, K Pottschmidt, J Rodriguez, J Wilms

The outburst decay of the low magnetic field magnetar SWIFT J1822.3−1606: phase-resolved analysis and evidence for a variable cyclotron feature

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 456:4 (2016) 4145-4155

Authors:

Guillermo A Rodríguez Castillo, Gian Luca Israel, Andrea Tiengo, David Salvetti, Roberto Turolla, Silvia Zane, Nanda Rea, Paolo Esposito, Sandro Mereghetti, Rosalba Perna, Luigi Stella, José A Pons, Sergio Campana, Diego Götz, Sara Motta

Time resolved X-ray spectroscopy of V404 Cyg during the June 2015 outburst

Proceedings of Science 2016-October (2016)

Authors:

C Sánchez-Fernández, J Kajava, SE Motta, E Kuulkers

Abstract:

Hard X-ray spectra of black hole binaries (BHB) are produced by the inverse 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 the optical depth (τ) of the emitting plasma. The extremely bright outburst of V404 Cyg in June 2015, provides a unique data set to perform time resolved spectroscopy and study in detail the evolution of the parameters describing the Comptonizing plasma. We present here the results of IBIS/ISGRI spectral analysis in the 20–200 keV energy range over the period 18–28 June 2015.

V404 Cyg: an INTEGRAL and Swift X-ray view of an obscured microquasar

Proceedings of Science 2016-October (2016)

Authors:

SE Motta, C Sánchez-Fernández, JJE Kajava

Abstract:

The black hole X-ray binary V404 Cyg entered an outburst phase on 2015 June 15 after 26 years of X-ray quiescence. Its activity was monitored at all wavelengths by virtually all the ground and space based facilities that could observe the source. This produced the largest multi-wavelength dataset on an active black hole X-ray transient. Here we focus on the X-ray monitoring campaign we carried out with the INTEGRAL and Swift satellites. We briefly summarize the results that we obtained from the observation of the most active phase of the outburst and we will describe our understanding of the source in the context of what it is known about accreting stellar mass and super-massive black holes. The results of time-resolved spectroscopy revealed that while the soft X-ray spectra extracted from Swift data reveal the effects of very variable, high column-density material obscuring the source, the hard X-ray spectra extracted from INTEGRAL are most sensitive the the source intrinsic (i.e. accretion driven) changes. Our results suggest that the inner part of the accretion flow in V404 Cyg is inflated into a so-called slim disk that hides the innermost regions of the flow, but also produces a cold, inhomogeneous, high-density outflow that introduces the high-absorption and fast spectral variability. We argue that the black hole in V404 Cyg might have been accreting erratically or even continuously at Eddington/Super-Eddington rates, while being partly or completely obscured. We therefore conclude that the part or even all of the flaring behaviour of the source might have not been accretion-driven, but rather the result of the covering/unveiling of the extremely bright source hidden within the system.