Title: Bohdan's Impact on Our Understanding of Gamma-ray Bursts
Authors: Tsvi Piran

Bohdan Paczy'nski was one of the pioneers of the cosmological GRB model. His ideas on how GRBs operate and what are their progenitors have dominated the field of GRBs in the hectic nineties during which the distances and the origin of GRBs were revealed. I discuss here Bohdan's contributions in some historical perspective.

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Title: Anomalous X-Ray emission in GRB060904B: a Nickel line?
Authors: R. Margutti, A. Moretti, F. Pasotti, S. Campana, G. Chincarini, S. Covino, C. Guidorzi, P. Romano, G. Tagliaferri

The detection of an extra component in GRB060904B X-ray spectra in addition to the standard single power-law behaviour has recently been reported in the literature. This component can be fit with different models; in particular the addition of a spectral line provides the best representation. In this paper we investigate the physical properties that the surrounding medium must have in order to produce a spectral feature that can explain the detected emission. We analyse and discuss how and if the detected spectral excess fits in different theoretical models developed to explain the nature of line emission during the afterglow phase of Gamma-Ray Bursts (GRBs). Transmission and reflection models have been considered. Given the high value (>>1) of the Thomson optical depth, the emission is likely to arise in a reflection scenario. Within reflection models, the external reflection geometry fails to predict the observed luminosity. On the contrary, the detected feature can be explained in a funnel scenario with typical opening angle theta of 5 degrees, Nickel mass of the order of 0.1 M_o and T=10^6 K. For theta=20 degrees, assuming the reprocessing material to be the SN shell, the detected emission implies a Nickel mass of 0.4 M_o at T=10^7 K and a metallicity 10 times the solar value. If the giant X-ray flare that dominates the early XRT light curve is identified with the ionising source, the SN expansion began 3000 s before the GRB event.

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Title: A bright millisecond radio burst of extragalactic origin
Authors: D. R. Lorimer, M. Bailes, M. A. McLaughlin, D. J. Narkevic, F. Crawford

Pulsar surveys offer one of the few opportunities to monitor even a small fraction (~0.00001) of the radio sky for impulsive burst-like events with millisecond durations. In analysis of archival survey data, we have discovered a 30-Jy dispersed burst of duration <5 ms located three degrees from the Small Magellanic Cloud. The burst properties argue against a physical association with our Galaxy or the Small Magellanic Cloud. Current models for the free electron content in the Universe imply a distance to the burst of <1 Gpc No further bursts are seen in 90-hr of additional observations, implying that it was a singular event such as a supernova or coalescence of relativistic objects. Hundreds of similar events could occur every day and act as insightful cosmological probes.

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Position(2000): RA 01h 18m 06s Dec 75°  12 19

Astronomers report seeing an extremely bright, extremely powerful radio burst from far outside of our galaxy. They can't recall seeing anything like it before and they have no idea what caused it.
The story begins in 2001, when astronomers pointed the Parkes radio telescope in Australia at the Small Magellanic Cloud. The cloud is really a galaxy about 200,000 light years away. The astronomers were looking for pulsars, spinning neutron stars that pour out rhythmic bursts of energy.

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