M. Feroci

Publications (399)587.16 Total impact

• Article: The complex time behaviour of the microquasar GRS 1915+105 in the \rho-class observed with BeppoSAX. III: The hard X-ray delay and limit cycle mapping

  F. Massa, E. Massaro, T. Mineo, A. D'Aì, M. Feroci, P. Casella, T. Belloni
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  ABSTRACT: The microquasar GRS1915+105 was observed by BeppoSAX in October 2000 for about ten days while the source was in \rho-mode, which is characterized by a quasi-regular type I bursting activity. This paper presents a systematic analysis of the delay of the hard and soft X-ray emission at the burst peaks. The lag, also apparent from the comparison of the [1.7-3.4] keV light curves with those in the [6.8-10.2] keV range, is evaluated and studied as a function of time, spectral parameters, and flux. We apply the limit cycle mapping technique, using as independent variables the count rate and the mean photon rate. The results using this technique were also cross-checked using a more standard approach with the cross-correlation methods. Data are organized in runs, each relative to a continuous observation interval. The detected hard-soft delay changes in the course of the pointing from about 3 s to about 10 s and presents a clear correlation with the baseline count rate.
  06/2013;
• Article: Background simulations for the Large Area Detector onboard LOFT

  R. Campana, M. Feroci, E. Del Monte, T. Mineo, N. Lund, G. W. Fraser
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  ABSTRACT: The Large Observatory For X-ray Timing (LOFT), currently in an assessment phase in the framework the ESA M3 Cosmic Vision programme, is an innovative medium-class mission specifically designed to answer fundamental questions about the behaviour of matter, in the very strong gravitational and magnetic fields around compact objects and in supranuclear density conditions. Having an effective area of ~10 m^2 at 8 keV, LOFT will be able to measure with high sensitivity very fast variability in the X-ray fluxes and spectra. A good knowledge of the in-orbit background environment is essential to assess the scientific performance of the mission and optimize the design of its main instrument, the Large Area Detector (LAD). In this paper the results of an extensive Geant-4 simulation of the instrument will be discussed, showing the main contributions to the background and the design solutions for its reduction and control. Our results show that the current LOFT/LAD design is expected to meet its scientific requirement of a background rate equivalent to 10 mCrab in 2-30 keV, achieving about 5 mCrab in the most important 2-10 keV energy band. Moreover, simulations show an anticipated modulation of the background rate as small as 10% over the orbital timescale. The intrinsic photonic origin of the largest background component also allows for an efficient modelling, supported by an in-flight active monitoring, allowing to predict systematic residuals significantly better than the requirement of 1%, and actually meeting the 0.25% science goal.
  05/2013;
• Article: AGILE Mini-Calorimeter gamma-ray burst catalog

  M. Galli, M. Marisaldi, F. Fuschino, C. Labanti, A. Argan, G. Barbiellini, A. Bulgarelli, P. W. Cattaneo, S. Colafrancesco, E. Del Monte, [......], L. Pacciani, A. Pellizzoni, C. Pittori, M. Rapisarda, A. Rappoldi, M. Tavani, M. Trifoglio, A. Trois, S. Vercellone, F. Verrecchia
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  ABSTRACT: The Mini-Calorimeter of the AGILE satellite can observe the high-energy part of gamma-ray bursts with good timing capability. We present the data of the 85 hard gamma-ray bursts observed by the Mini-Calorimeter since the launch (April 2007) until October 2009. We report the timing data for 84 and spectral data for 21 bursts.
  03/2013;
• Article: GRB 080407: an ultra-long burst discovered by the IPN

  V. Pal'shin, K. Hurley, J. Goldsten, I. G. Mitrofanov, W. Boynton, A. von Kienlin, J. Cummings, M. Feroci, R. Aptekar, D. Frederiks, [......], R. Starr, A. Rau, V. Savchenko, X. Zhang, S. Barthelmy, N. Gehrels, H. Krimm, D. Palmer, E. Del Monte, M. Marisaldi
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  ABSTRACT: We present observations of the extremely long GRB 080704 obtained with the instruments of the Interplanetary Network (IPN). The observations reveal two distinct emission episodes, separated by a ~1500 s long period of quiescence. The total burst duration is about 2100 s. We compare the temporal and spectral characteristics of this burst with those obtained for other ultra-long GRBs and discuss these characteristics in the context of different models.
  01/2013;
• Article: IPN localizations of Konus short gamma-ray bursts

  V. D. Pal'shin, K. Hurley, D. S. Svinkin, R. L. Aptekar, S. V. Golenetskii, D. D. Frederiks, E. P. Mazets, P. P. Oleynik, M. V. Ulanov, T. Cline, [......], M. Rapisarda, P. Soffitta, G. Di Cocco, F. Fuschino, M. Galli, C. Labanti, M. Marisaldi, J. -L. Atteia, R. Vanderspek, G. Ricker
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  ABSTRACT: Between the launch of the GGS Wind spacecraft in 1994 November and the end of 2010, the Konus-Wind experiment detected 314 short-duration gamma-ray bursts (including 24 bursts which can be classified as short bursts with extended emission). During this period, the IPN consisted of up to eleven spacecraft, and using triangulation, the localizations of 276 bursts were obtained. We present the IPN localization data on these events.
  01/2013;
• Article: The Interplanetary Network Supplement to the Fermi GBM Catalog of Cosmic Gamma-Ray Bursts

  K. Hurley, V. D. Pal'shin, R. L. Aptekar, S. V. Golenetskii, D. D. Frederiks, E. P. Mazets, D. S. Svinkin, M. S. Briggs, V. Connaughton, C. Meegan, [......], K. Makishima, S. Barthelmy, T. Cline, N. Gehrels, J. Cummings, H. A. Krimm, D. M. Smith, E. Del Monte, M. Feroci, M. Marisaldi
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  ABSTRACT: We present Interplanetary Network (IPN) data for the gamma-ray bursts in the first Fermi Gamma-Ray Burst Monitor (GBM) catalog. Of the 491 bursts in that catalog, covering 2008 July 12 to 2010 July 11, 393 were observed by at least one other instrument in the 9-spacecraft IPN. Of the 393, the localizations of 146 could be improved by arrival time analysis (or "triangulation"). For any given burst observed by the GBM and one other distant spacecraft, triangulation gives an annulus of possible arrival directions whose half-width varies between about 0.4 arcminutes and 32 degrees, depending on the intensity, time history, and arrival direction of the burst, as well as the distance between the spacecraft. We find that the IPN localizations intersect the 1 sigma GBM error circles in only 52% of the cases, if no systematic uncertainty is assumed for the latter. If a 6 degree systematic uncertainty is assumed and added in quadrature, the two localization samples agree about 87% of the time, as would be expected. If we then multiply the resulting error radii by a factor of 3, the two samples agree in slightly over 98% of the cases, providing a good estimate of the GBM 3 sigma error radius. The IPN 3 sigma error boxes have areas between about 1 square arcminute and 110 square degrees, and are, on the average, a factor of 180 smaller than the corresponding GBM localizations. We identify two bursts in the IPN/GBM sample that did not appear in the GBM catalog. In one case, the GBM triggered on a terrestrial gamma flash, and in the other, its origin was given as "uncertain". We also discuss the sensitivity and calibration of the IPN.
  01/2013;
• Source

  Available from: Mauro Orlandini

  Dataset: LOFTspie

  M. Feroci, J. W. den Herder, E. Bozzo, D. Barret, S. Brandt, M. Hernanz, M. van der Klis, M. Pohl, A. Santangelo, L. Stella, [......], D. Lai, F. K. Lamb, F. Lebrun, D. Lin, D. Linder, G. Lodato, F. Longo, N. Lund, T. J. Maccarone, D. Macera
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  Available from: Carlotta Pittori

  Dataset: A132.Agile.mission.nim

  M. Tavani, G. Barbiellini, A. Argan, A. Bulgarelli, P. Caraveo, A. Chen, V. Cocco, E. Costa, G. De Paris, E. Del Monte, [......], P. Soffitta, M. Trifoglio, A. Trois, E. Vallazza, S. Vercellone, A. Zambra, D. Zanello, P. Giommi, A. Antonelli, C. Pittori
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  Available from: A. Morselli

  Dataset: A132.Agile.mission.nim

  M. Tavani, G. Barbiellini, A. Argan, A. Bulgarelli, P. Caraveo, A. Chen, V. Cocco, E. Costa, G. De Paris, E. Del Monte, [......], P. Soffitta, M. Trifoglio, A. Trois, E. Vallazza, S. Vercellone, A. Zambra, D. Zanello, P. Giommi, A. Antonelli, C. Pittori
• Source

  Available from: A. Morselli

  Dataset: A183.Agile.grb.nim

  E. Del Monte, G. Barbiellini, F. Fuschino, A. Giuliani, F. Longo, M. Marisaldi, S. Mereghetti, E. Moretti, M. Trifoglio, G. Vianello, [......], A. Trois, E. Vallazza, V. Vittorini, L.A. Antonelli, C. Pittori, B. Preger, P. Santolamazza, F. Verrecchia, P. Giommi, L. Salotti
• Article: Accelerator experiments with soft protons and hyper-velocity dust particles: application to ongoing projects of future X-ray missions

  E. Perinati, S. Diebold, E. Kendziorra, A. Santangelo, C. Tenzer, J. Jochum, S. Bugiel, R. Srama, E. Del Monte, M. Feroci, [......], C. A. Kilbourne, N. Meidinger, L. Strüder, B. Cordier, D. Götz, G. W. Fraser, J. P. Osborne, K. Dennerl, M. Freyberg, P. Friedrich
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  ABSTRACT: We report on our activities, currently in progress, aimed at performing accelerator experiments with soft protons and hyper-velocity dust particles. They include tests of different types of X-ray detectors and related components (such as filters) and measurements of scattering of soft protons and hyper-velocity dust particles off X-ray mirror shells. These activities have been identified as a goal in the context of a number of ongoing space projects in order to assess the risk posed by environmental radiation and dust and qualify the adopted instrumentation with respect to possible damage or performance degradation. In this paper we focus on tests for the Silicon Drift Detectors (SDDs) used aboard the LOFT space mission. We use the Van de Graaff accelerators at the University of T\"ubingen and at the Max Planck Institute for Nuclear Physics (MPIK) in Heidelberg, for soft proton and hyper-velocity dust tests respectively. We present the experimental set-up adopted to perform the tests, status of the activities and some very preliminary results achieved at present time.
  09/2012;
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  Available from: A. Morselli

  Article: The AGILE monitoring of Cygnus X-3: transient gamma-ray emission and spectral constraints

  G. Piano, M. Tavani, V. Vittorini, A. Trois, A. Giuliani, A. Bulgarelli, Y. Evangelista, P. Coppi, E. Del Monte, S. Sabatini, [......], A. Morselli, A. Pellizzoni, C. Pittori, G. Pucella, M. Rapisarda, A. Rappoldi, P. Soffitta, M. Trifoglio, S. Vercellone, F. Verrecchia
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  ABSTRACT: We present the AGILE-GRID monitoring of Cygnus X-3, during the period between November 2007 and July 2009. We report here the whole AGILE-GRID monitoring of Cygnus X-3 in the AGILE "pointing" mode data-taking, in order to confirm that the gamma-ray activity occurs in coincidence with the same repetitive pattern of multiwavelength emission and to analyze in depth the overall gamma-ray spectrum by assuming both leptonic and hadronic scenarios. Seven intense gamma-ray events were detected in this period, with a typical event lasting 1 or 2 days. Such a duration is longer than the likely cooling times of the gamma-ray emitting particles, implying we are seeing continuous acceleration rather than the result of an impulsive event such as the ejection of a single plasmoid which then cools as it propagates outwards. Cross-correlating the AGILE-GRID light curve with X-ray and radio monitoring data, we find that the main events of gamma-ray activity have been detected while the system was in soft spectral X-ray states (RXTE/ASM count rate > 3 counts/s), coincident with local and often sharp minima of the hard X-ray flux (Swift/BAT count rate < 0.02 counts/cm^2/s), a few days before intense radio outbursts. [...] The gamma-ray events thus may reflect a sharp transition in the structure of the accretion disk and its corona, which leads to a rebirth of the microquasar jet and subsequent enhanced radio activity. [...] Finally, we examine leptonic and hadronic emission models for the gamma-ray events and find that both scenarios may work. In the leptonic model - based on IC scatterings of mildly relativistic electrons on soft photons from the Wolf-Rayet companion star and from the accretion disk - the emitting particles may also contribute to the overall hard X-ray spectrum, possibly explaining the hard non-thermal power-law tail sometimes seen during special soft X-ray states in Cygnus X-3.
  Astronomy and Astrophysics 09/2012; 545(545):a110. · 4.59 Impact Factor
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  Available from: Nikolaos Stergioulas

  Article: LOFT: the Large Observatory For X-ray Timing

  M. Feroci, J. W. den Herder, E. Bozzo, D. Barret, S. Brandt, M. Hernanz, M. van der Klis, M. Pohl, A. Santangelo, L. Stella, [......], R. Wijnands, M. Wille, C. A. Wilson-Hodge, B. Winter, K. Wood, G. Zampa, N. Zampa, L. Zampieri, A. Zdziarski, B. Zhang
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  ABSTRACT: The LOFT mission concept is one of four candidates selected by ESA for the M3 launch opportunity as Medium Size missions of the Cosmic Vision programme. The launch window is currently planned for between 2022 and 2024. LOFT is designed to exploit the diagnostics of rapid X-ray flux and spectral variability that directly probe the motion of matter down to distances very close to black holes and neutron stars, as well as the physical state of ultra-dense matter. These primary science goals will be addressed by a payload composed of a Large Area Detector (LAD) and a Wide Field Monitor (WFM). The LAD is a collimated (<1 degree field of view) experiment operating in the energy range 2-50 keV, with a 10 m^2 peak effective area and an energy resolution of 260 eV at 6 keV. The WFM will operate in the same energy range as the LAD, enabling simultaneous monitoring of a few-steradian wide field of view, with an angular resolution of <5 arcmin. The LAD and WFM experiments will allow us to investigate variability from submillisecond QPO's to year-long transient outbursts. In this paper we report the current status of the project.
  09/2012;
• Article: A Large Area Detector proposed for the Large Observatory for X-ray Timing (LOFT)

  S. Zane, D. Walton, T. Kennedy, M. Feroci, J. -W. Den Herder, M. Ahangarianabhari, A. Argan, P. Azzarello, G. Baldazzi, D. Barret, [......], C. Schmid, P. Soffitta, S. Suchy, C. Tenzer, P. Uttley, A. Vacchi, G. Zampa, N. Zampa, J. Wilms, B. Winter
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  ABSTRACT: The Large Observatory for X-ray Timing (LOFT) is one of the four candidate ESA M3 missions considered for launch in the 2022 time-frame. It is specifically designed to perform fast X-ray timing and probe the status of the matter near black holes and neutron stars. The LOFT scientific payload is composed of a Large Area Detector (LAD) and a Wide Field Monitor (WFM). The LAD is a 10 m2-class pointed instrument with 20 times the collecting area of the best past timing missions (such as RXTE) over the 2-30 keV range, which holds the capability to revolutionize studies of X-ray variability down to the millisecond time scales. Its ground-breaking characteristic is a low mass per unit surface, enabling an effective area of ~10 m^2 (@10 keV) at a reasonable weight. The development of such large but light experiment, with low mass and power per unit area, is now made possible by the recent advancements in the field of large-area silicon detectors - able to time tag an X-ray photon with an accuracy <10 {\mu}s and an energy resolution of ~260 eV at 6 keV - and capillary-plate X-ray collimators. In this paper, we will summarize the characteristics of the LAD instrument and give an overview of its capabilities.
  09/2012;
• Article: The LOFT Wide Field Monitor

  S. Brandt, M. Hernanz, L. Alvarez, P. Azzarello, D. Barret, E. Bozzo, Budtz-Jørgensen, R. Campana, E. del Monte, I. Donnarumma, [......], S. Schanne, C. Schmid, S. Suchy, C. Tenzer, A. Vacchi, J. Wilms, G. Zampa, N. Zampa, J. in't Zand, A. Zdziarski
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  ABSTRACT: LOFT (Large Observatory For x-ray Timing) is one of the four missions selected in 2011 for assessment study for the ESA M3 mission in the Cosmic Vision program, expected to be launched in 2024. The LOFT mission will carry two instruments with their prime sensitivity in the 2-30 keV range: a 10 m^2 class large area detector (LAD) with a <1{\deg} collimated field of view and a wide field monitor (WFM) instrument based on the coded mask principle, providing coverage of more than 1/3 of the sky. The LAD will provide an effective area ~20 times larger than any previous mission and will by timing studies be able to address fundamental questions about strong gravity in the vicinity of black holes and the equation of state of nuclear matter in neutron stars. The prime goal of the WFM will be to detect transient sources to be observed by the LAD. However, with its wide field of view and good energy resolution of <300 eV, the WFM will be an excellent monitoring instrument to study long term variability of many classes of X-ray sources. The sensitivity of the WFM will be 2.1 mCrab in a one day observation, and 270 mCrab in 3s in observations of in the crowded field of the Galactic Center. The high duty cycle of the instrument will make it an ideal detector of fast transient phenomena, like X-ray bursters, soft gamma repeaters, terrestrial gamma flashes, and not least provide unique capabilities in the study of gamma ray bursts. A dedicated burst alert system will enable the distribution to the community of ~100 gamma ray burst positions per year with a ~1 arcmin location accuracy within 30 s of the burst. This paper provides an overview of the design, configuration, and capabilities of the LOFT WFM instrument.
  09/2012;
• Article: The LOFT Wide Field Monitor simulator

  I. Donnarumma, Y. Evangelista, R. Campana, J. in't Zand, M. Feroci, N. Lund, S. Brandt, J. Wilms, C. Schmid
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  ABSTRACT: We present the simulator we developed for the Wide Field Monitor (WFM) aboard the Large Observatory For X-ray Timing (LOFT) mission, one of the four ESA M3 candidate missions considered for launch in the 2022-2024 timeframe. The WFM is designed to cover a large FoV in the same bandpass as the Large Area Detector (LAD, almost 50% of its accessible sky in the energy range 2-50 keV), in order to trigger follow-up observations with the LAD for the most interesting sources. Moreover, its design would allow to detect transient events with fluxes down to a few mCrab in 1-day exposure, for which good spectral and timing resolution would be also available (about 300 eV FWHM and 10 {\mu}s, respectively). In order to investigate possible WFM configurations satisfying these scientific requirements and assess the instrument performance, an end-to-end WFM simulator has been developed. We can reproduce a typical astrophysical observation, taking into account both mask and detector physical properties. We will discuss the WFM simulator architecture and the derived instrumental response.
  09/2012;
• Article: Simulations of the X-ray imaging capabilities of the Silicon Drift Detectors (SDD) for the LOFT Wide Field Monitor

  Y. Evangelista, R. Campana, E. Del Monte, I. Donnarumma, M. Feroci, F. Muleri, L. Pacciani, P. Soffitta, A. Rachevski, A. Vacchi, G. Zampa, N. Zampa, S. Suchy, S. Brandt, C. Budtz-Jørgensen, M. Hernanz
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  ABSTRACT: The Large Observatory For X-ray Timing (LOFT), selected by ESA as one of the four Cosmic Vision M3 candidate missions to undergo an assessment phase, will revolutionize the study of compact objects in our galaxy and of the brightest supermassive black holes in active galactic nuclei. The Large Area Detector (LAD), carrying an unprecedented effective area of 10 m^2, is complemented by a coded-mask Wide Field Monitor, in charge of monitoring a large fraction of the sky potentially accessible to the LAD, to provide the history and context for the sources observed by LAD and to trigger its observations on their most interesting and extreme states. In this paper we present detailed simulations of the imaging capabilities of the Silicon Drift Detectors developed for the LOFT Wide Field Monitor detection plane. The simulations explore a large parameter space for both the detector design and the environmental conditions, allowing us to optimize the detector characteristics and demonstrating the X-ray imaging performance of the large-area SDDs in the 2-50 keV energy band.
  09/2012;
• Source

  Available from: A. Morselli

  Article: The characterization of the distant blazar GB6 J1239+0443 from flaring and low activity periods

  L. Pacciani, I. Donnarumma, K. D. Denney, R. J. Assef, Y. Ikejiri, M. Yamanaka, M. Uemura, A. Domingo, P. Giommi, A. Tarchi, [......], P. Soffitta, M. Trifoglio, A. Trois, E. Vallazza, D. Zanello, C. Pittori, P. Santolamazza, F. Lucarelli, L. Salotti, G. Valentini
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  ABSTRACT: In 2008 AGILE and Fermi detected gamma-ray flaring activity from the unidentified EGRET source 3EG J1236+0457, recently associated with a flat spectrum radio quasar GB6 J1239+0443 at z=1.762. The optical counterpart of the gamma-ray source underwent a flux enhancement of a factor 15-30 in 6 years, and of ~10 in six months. We interpret this flare-up in terms of a transition from an accretion-disk dominated emission to a synchrotron-jet dominated one. We analysed a Sloan Digital Sky Survey (SDSS) archival optical spectrum taken during a period of low radio and optical activity of the source. We estimated the mass of the central black hole using the width of the CIV emission line. In our work, we have also investigated SDSS archival optical photometric data and UV GALEX observations to estimate the thermal-disk emission contribution of GB6 J1239+0443. Our analysis of the gamma-ray data taken during the flaring episodes indicates a flat gamma-ray spectrum, with an extension of up to 15 GeV, with no statistically-relevant sign of absorption from the broad line region, suggesting that the blazar-zone is located beyond the broad line region. This result is confirmed by the modeling of the broad-band spectral energy distribution (well constrained by the available multiwavelength data) of the flaring activity periods and by the accretion disk luminosity and black hole mass estimated by us using archival data.
  06/2012;
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  Available from: Dmitry Svinkin

  Article: Inverse Compton X-Ray Emission from Supernovae with Compact Progenitors: Application to SN2011fe

  R. Margutti, A. M. Soderberg, L. Chomiuk, R. Chevalier, K. Hurley, D. Milisavljevic, R. J. Foley, J. P. Hughes, P. Slane, C. Fransson, [......], T. Murakami, M. Ohno, D. M. Palmer, A. B. Sanin, R. Starr, D. Svinkin, T. Takahashi, M. Tashiro, Y. Terada, K. Yamaoka
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  ABSTRACT: We present a generalized analytic formalism for the inverse Compton X-ray emission from hydrogen-poor supernovae and apply this framework to SN 2011fe using Swift X-Ray Telescope (XRT), UVOT, and Chandra observations. We characterize the optical properties of SN 2011fe in the Swift bands and find them to be broadly consistent with a "normal" SN Ia, however, no X-ray source is detected by either XRT or Chandra. We constrain the progenitor system mass-loss rate \dot{M}< 2\times 10^{-9}\ {M_{\odot }}\ yr^{-1} (3σ c.l.) for wind velocity vw = 100 km s-1. Our result rules out symbiotic binary progenitors for SN 2011fe and argues against Roche lobe overflowing subgiants and main-sequence secondary stars if >~ 1% of the transferred mass is lost at the Lagrangian points. Regardless of the density profile, the X-ray non-detections are suggestive of a clean environment (n CSM < 150 cm-3) for 2 × 1015 <~ R <~ 5 × 1016 cm around the progenitor site. This is either consistent with the bulk of material being confined within the binary system or with a significant delay between mass loss and supernova explosion. We furthermore combine X-ray and radio limits from Chomiuk et al. to constrain the post-shock energy density in magnetic fields. Finally, we searched for the shock breakout pulse using gamma-ray observations from theInterplanetary Network and find no compelling evidence for a supernova-associated burst. Based on the compact radius of the progenitor star we estimate that the shock breakout pulse was likely not detectable by current satellites.
  The Astrophysical Journal 06/2012; 751(2). · 6.02 Impact Factor
• Article: IPN triangulation of GRB 120129A (long/intense).

  S Golenetskii, R Aptekar, E Mazets, V Pal'Shin, D Frederiks, D Svinkin, T Cline, K Hurley, J Goldsten, V Connaughton, [......], E Costa, M ~E Del, I Donnarumma, Y Evangelista, M Feroci, I Lapshov, F Lazzarotto, L Pacciani, M Rapisarda, P Soffitta
  GRB Coordinates Network. 01/2012; 12904:1.