17 research outputs found

    The 5 hr pulse period and broadband spectrum of the Symbiotic X-ray Binary 3A 1954+319

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    We present an analysis of the highly variable accreting X-ray pulsar 3A 1954+319 using 2005-2009 monitoring data obtained with INTEGRAL and Swift. This considerably extends the pulse period history and covers flaring episodes in 2005 and 2008. In 2006 the source was identified as one of only a few known symbiotic X-ray binaries (SyXBs), i.e., systems composed of a neutron star accreting from the inhomogeneous medium around an M-giant star. The extremely long pulse period of 5.3 hr is directly visible in the 2008 INTEGRAL-ISGRI outburst light curve. The pulse profile is double peaked and generally not significantly energy dependent although there is an indication of possible softening during the main pulse. During the outburst a strong spin-up of -1.8 10^(-4) hr hr^(-1) occurred. Between 2005 and 2008 a long-term spin-down trend of 2.1 10^-5 hr hr^(-1) was observed for the first time for this source. The 3-80 keV pulse peak spectrum of 3A 1954+319 during the 2008 flare could be well described by a thermal Comptonization model. We interpret the results within the framework of a recently developed quasi-spherical accretion model for SyXBs.Comment: 5 pages, 4 figures, published in The Astrophysical Journal Letter

    X-ray spectral and flux variability of the microquasar GRS 1758-258 on timescales from weeks to years

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    We present the spectral and timing evolution of the persistent black hole X-ray binary GRS 1758-258 based on almost 12 years of observations using the Rossi X-ray Timing Explorer Proportional Counter Array. While the source was predominantly found in the hard state during this time, it entered the thermally dominated soft state seven times. In the soft state GRS 1758-258 shows a strong decline in flux above 3 keV rather than the pivoting flux around 10 keV more commonly shown by black hole transients. In its 3-20 keV hardness intensity diagram, GRS 1758-258 shows a hysteresis of hard and soft state fluxes typical for transient sources in outburst. The RXTE-PCA and RXTE-ASM long-term light curves do not show any orbital modulations in the range of 2 to 30 d. However, in the dynamic power spectra significant peaks drift between 18.47d and 18.04d for the PCA data, while less significant signatures between 19d and 20d are seen for the ASM data as well as for the Swift/BAT data. We discuss different models for the hysteresis behavior during state transitions as well as possibilities for the origin of the long term variation in the context of a warped accretion disk.Comment: 12 pages, 13 figures, accepted by Astronomy & Astrophysic

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

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    We studied time variability and spectral evolution of the Galactic black hole transient Swift J174510.8-262411 during the first phase of its outburst. INTEGRAL and Swift observations collected from 2012 September 16 until October 30 have been used. The total squared fractional rms values did not drop below 5% and QPOs, when present, were type-C, indicating that the source never made the transition to the soft-intermediate state. Even though the source was very bright (up to 1 Crab in hard X-rays), it showed a so called failed outburst as it never reached the soft state. XRT and IBIS broad band spectra, well represented by a hybrid thermal/non-thermalComptonisationmodel, showed physical parameters characteristic of the hard and intermediate states. In particular, the derived temperature of the geometrically thin disc black body was about 0.6 keV at maximum.We found a clear decline of the optical depth of the corona electrons (close to values of 0.1), as well as of the total compactness ratio lh/ls. The hard-to-hard/intermediate state spectral transition is mainly driven by the increase in the soft photon flux in the corona, rather than small variations of the electron heating. This, associated with the increasing of the disc temperature, is consistent with a disc moving towards the compact object scenario, i.e. the truncated-disc model. Moreover, this scenario is consistent with the decreasing fractional squared rms and increasing of the noise and QPO frequency. In our final group of observations, we found that the contribution from the non-thermal Comptonisation to the total power supplied to the plasma is 0.59+0.02/-0.05 and that the thermal electrons cool to kTe<26 keV

    Positron annihilation signatures associated with the outburst of the microquasar V404 Cygni

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    This document is the Accepted Manuscript version of the following article: Thomas Siegert, et al, ‘Positron annihilation signatures associated with the outburst of the microquasar V404 Cygni’, Nature: International Journal of Science, Vol. 531: 341-343, March 2016, DOI: https://doi.org/10.1038/nature16978. Content in the UH Research Archive is made available for personal research, educational, and non-commercial purposes only. Unless otherwise stated, all content is protected by copyright, and in the absence of an open license, permissions for further re-use should be sought from the publisher, the author, or other copyright holder.Microquasars1, 2, 3, 4 are stellar-mass black holes accreting matter from a companion star5 and ejecting plasma jets at almost the speed of light. They are analogues of quasars that contain supermassive black holes of 106 to 1010 solar masses. Accretion in microquasars varies on much shorter timescales than in quasars and occasionally produces exceptionally bright X-ray flares6. How the flares are produced is unclear, as is the mechanism for launching the relativistic jets and their composition. An emission line near 511 kiloelectronvolts has long been sought in the emission spectrum of microquasars as evidence for the expected electron–positron plasma. Transient high-energy spectral features have been reported in two objects7, 8, but their positron interpretation9 remains contentious. Here we report observations of γ-ray emission from the microquasar V404 Cygni during a recent period of strong flaring activity10. The emission spectrum around 511 kiloelectronvolts shows clear signatures of variable positron annihilation, which implies a high rate of positron production. This supports the earlier conjecture that microquasars may be the main sources of the electron–positron plasma responsible for the bright diffuse emission of annihilation γ-rays in the bulge region of our Galaxy11. Additionally, microquasars could be the origin of the observed megaelectronvolt continuum excess in the inner Galaxy.Peer reviewe

    A Multiwavelength Study of GRS 1716-249 in Outburst: Constraints on Its System Parameters

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    We present a detailed study of the evolution of the Galactic black hole transient GRS 1716-249 during its 2016-2017 outburst at optical (Las Cumbres Observatory), mid-infrared (Very Large Telescope), near-infrared (Rapid Eye Mount telescope), and ultraviolet (the Neil Gehrels Swift Observatory Ultraviolet/Optical Telescope) wavelengths, along with archival radio and X-ray data. We show that the optical/near-infrared and UV emission of the source mainly originates from a multi-temperature accretion disk, while the mid-infrared and radio emission are dominated by synchrotron emission from a compact jet. The optical/UV flux density is correlated with the X-ray emission when the source is in the hard state, consistent with an X-ray irradiated accretion disk with an additional contribution from the viscous disk during the outburst fade. We find evidence for a weak, but highly variable jet component at mid-infrared wavelengths. We also report the long-term optical light curve of the source and find that the quiescent i'-band magnitude is 21.39 +/- 0.15 mag. Furthermore, we discuss how previous estimates of the system parameters of the source are based on various incorrect assumptions, and so are likely to be inaccurate. By comparing our GRS 1716-249 data set to those of other outbursting black hole X-ray binaries, we find that while GRS 1716-249 shows similar X-ray behavior, it is noticeably optically fainter, if the literature distance of 2.4 kpc is adopted. Using several lines of reasoning, we argue that the source distance is further than previously assumed in the literature, likely within 4-17 kpc, with a most likely range of similar to 4-8 kpc

    Etude des émissions à haute énergie des trous noirs stellaires accrétants

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    The present work is dedicated to the study of various X-ray binary systems harbouring accreting stellar mass black holes (or candidates) associated in X-ray binary systems mainly through the spectral and timing properties of the high energy 3 keV-1 MeV emission, sometimes completed by observations performed in radio, near-infrared and optical. The first part is devoted to accretion physics phenomena and the challenges of understanding the X-ray/gamma emission produced with the modelisations of such high energy processes. Then I will define in a second part the instruments on board INTEGRAL and the way coded masked aperture is employed. In a third part, I will develop the standard data reduction analysis and my own contribution in improving the usual software before detailing the specific informatics tools I have developed for my own analysis. In the fourth part I will turn towards the deep analysis and interpretations I have performed on several black hole X-ray binary systems chosen properly: the persistent black hole source Cygnus X-1 which has been studied since several years and surprised us by a high-energy excess detected; two new transient sources which provide interesting informations, XTE J1720-318 located in the galactic bulge and SWIFT J1753.5-0127, probably situated in the halo. I will also detail my work on H 1743-322, recently identified by INTEGRAL as the HEAO source discovered in 1977, and on three (almost) persistent microquasars with superluminal jets, 1E 1740.7-2942, GRS 1758-258 and GRS 1915+105. I will analyze for each source spectral parameter evolutions and their links with each other during state transitions. I will then discuss the presence of two different X/gamma-ray emitting media with a relatively changing geometry. While establishing a cyclic order for the different variability classes of GRS 1915+105 observed during ten years, I will propose an interpretation for such behaviour, compatible with the theoretical predictions of the Accretion-Ejection Instability. As a conclusion I will discuss my results in the framework of theoretical models to explain the observations presented and I will derive some caveats to the general (well understood) physical processes occurring in X-ray binary systems. I will discuss two important phenomena recently observed. I will conclude with my perspectives of future research work.La présente thèse porte sur l'étude de plusieurs systèmes binaires X accrétants contenant un trou noir stellaire (avéré ou potentiel) à travers les propriétés spectrales et temporelles de leurs émissions à haute énergie entre 3 keV et 1 MeV, éventuellement agrémentées d'observations dans les domaines radio, proche infrarouge et visible. La première partie est consacrée à la physique de l'accrétion, aux enjeux qu'elle représente et modélisations qui en découlent pour expliquer le rayonnement perçu. Je détaille dans une deuxième partie les instruments à bord d'INTEGRAL dont les trois instruments principaux utilisent les techniques d'imagerie à masque codé. Ensuite, je présente les procédures d'analyses de données avant de montrer mon apport personnel à l'amélioration des logiciels existants et à la création d'outils informatiques spécifiques à mes analyses. Dans une quatrième partie, je présente mes analyses et interprétations sur les observations de plusieurs sources binaires X à trou noir, judicieusement déterminées et choisies : Cygnus X-1, trou noir confirmé persistant étudié depuis de nombreuses années ayant surpris par un excès haute énergie détecté ; deux sources transitoires nouvelles et intéressantes, XTE J1720-318 située dans le centre galactique et SWIFT J1753.5-0127, plus probablement localisée dans le halo. Je détaille ensuite mes analyses sur H 1743-322, identifiée grâce à INTEGRAL avec une source découverte par HEAO en 1977, et sur trois microquasars presque persistants à jets superluminiques, 1E 1740.7-2942, GRS 1758-258 et GRS 1915+105. J'analyse les liens entre les paramètres spectraux et leurs changements lors des transitions entre états. Je discute la présence de deux milieux émetteurs de rayons X/gamma, de géométrie relative changeante. Pour GRS 1915+105, j'établis un cycle probable ordonné dans la succession de ses variabilités pendant dix années et je propose une interprétation compatible avec les prédictions du modèle d'Instabilité d'Accrétion-Ejection. En conclusion, je commente ces résultats spectro-temporels dans le cadre de modèles théoriques expliquant les phénomènes observés et déduis certaines limites à notre compréhension générale des systèmes binaires X. Je décris ce qu'apportent deux nouveaux phénomènes observés et termine par mes perspectives de recherches
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