Your search keyword '"Striani E"' showing total 3 results

1. GAMMA-RAY OBSERVATIONS OF CYGNUS X-1 ABOVE 100 MeV IN THE HARD AND SOFT STATES.

Author

SABATINI, S., TAVANI, M., COPPI, P., POOLEY, G., DEL SANTO, M., CAMPANA, R., CHEN, A., EVANGELISTA, Y., PIANO, G., BULGARELLI, A., CATTANEO, P. W., COLAFRANCESCO, S., DELMONTE, E., GIULIANI, A., GIUSTI, M., LONGO, F., MORSELLI, A., PELLIZZONI, A., PILIA, M., and STRIANI, E.

Subjects

CYGNUS X-1, GAMMA ray astronomy, ACCRETION disks, PHOTONS, BINARY systems (Astronomy)

Abstract

We present the results of multi-year gamma-ray observations by the AGILE satellite of the black hole binary system Cygnus X-1. In a previous investigation we focused on gamma-ray observations of Cygnus X-1 in the hard state during the period mid-2007/2009. Here we present the results of the gamma-ray monitoring of Cygnus X-1 during the period 2010/mid-2012 which includes a remarkably prolonged "soft state" phase (2010 June-2011 May). Previous 1-10 MeV observations of Cyg X-1 in this state hinted at a possible existence of a nonthermal particle component with substantial modifications of the Comptonized emission from the inner accretion disk. Our AGILE data, averaged over the mid-2010/mid-2011 soft state of Cygnus X-1, provide a significant upper limit for gamma-ray emission above 100 MeV of Fsoft < 20 × 10-8 photons cm-2 s-1 , excluding the existence of prominent non-thermal emission above 100 MeV during the soft state of Cygnus X-1. We discuss theoretical implications of our findings in the context of high-energy emission models of black hole accretion. We also discuss possible gamma-ray flares detected by AGILE. In addition to a previously reported episode observed by AGILE in 2009 October during the hard state, we report a weak but important candidate for enhanced emission which occurred at the end of 2010 June (2010 June 30 10:00-2010 July 2 10:00 UT) exactly coinciding with a hard-to-soft state transition and before an anomalous radio flare. An appendix summarizes all previous high-energy observations and possible detections of Cygnus X-1 above 1 MeV. [ABSTRACT FROM AUTHOR]

Published

2013

2. THE BLOB CRASHES INTO THE MIRROR: MODELING THE EXCEPTIONAL γ-RAY FLARING ACTIVITY OF 3C 454.3 IN 2010 NOVEMBER.

Author

Vittorini, V., Tavani, M., Cavaliere, A., Striani, E., and Vercellone, S.

Subjects

GAMMA rays, GALAXIES, QUASARS, BLACK holes, SOLAR x-rays, SOLAR flares

Abstract

3C 454.3 is a prominent flat-spectrum radio quasar that in recent years attracted considerable attention because of its variable high-energy emissions. In this paper, we focus on the exceptional flaring activity of 3C 454.3 that was detected by AGILE and by Fermi-LAT in 2010 November. In the light of the time-varying data ranging from the radio, optical, and X-ray up to GeV γ-ray bands, we discuss a theoretical framework addressing all data in their overall evolution. For two weeks, the source has shown a plateau of enhanced GeV emission preceding a sudden major flare lasting about three days before decaying. The γ-ray flare onset is abrupt (about six hours), and is characterized by a prominent “Compton dominance” with the GeV flux exceeding the pre-flare values by a factor of four to five. During this episode, the optical and X-ray fluxes increased by a factor of around two. Within the standard framework of a jet launched with a Lorentz bulk factor Γ ∼ 10 from a central black hole, we explore the yields of two alternatives. Case 1, with high-energy emission originating within the broad line region (BLR); and Case 2, with most of it produced outside at larger distances of a few parsecs. We show that Case 1 has considerable problems in explaining the whole set of multifrequency data. Case 2, instead, leads to a consistent and interesting interpretation based on the enhanced inverse Compton radiation that is produced as the jet crashes onto a mirror cloud positioned at parsec scales. This model explains the γ-ray versus optical/X-ray behavior of 3C 454.3, including the otherwise puzzling phenomena such as the prominent “orphan” optical flare, and the enhanced line emission with no appreciable γ-ray counterpart that preceded the GeV γ-ray flare. It also accounts for the delayed onset of the latter on top of the long plateau. Our modeling of the exceptional 3C 454.3 γ-ray flare shows that while emission inside the canonical BLR is problematic, major and rapid variations can be produced at parsec scales with moderate bulk Lorentz factors Γ ≈ 15. Our “crashed mirror” model is also applicable to other blazar flares marked by large Compton dominance of the emitted radiation such as the flare of PKS 1830–211 in 2010 October. [ABSTRACT FROM AUTHOR]

Published

2014

3. THE EXTRAORDINARY GAMMA-RAY FLARE OF THE BLAZAR 3C 454.3.

Author

Striani, E., Vercellone, S., Tavani, M., Vittorini, V., D’Ammando, F., Donnarumma, I., Pacciani, L., Pucella, G., Bulgarelli, A., Trifoglio, M., Gianotti, F., Giommi, P., Argan, A., Barbiellini, G., Caraveo, P., Cattaneo, P. W., Chen, A. W., Costa, E., De Paris, G., and Monte, E. Del

Published

2010