64 research outputs found
Optical observations of GRB 060218/SN 2006aj and its host galaxy
The supernova SN 2006aj associated with GRB 060218 is the second-closest
GRB-SN observed to date (=0.033) and is the clearest example of a SN
associated with a Swift GRB with the earliest optical spectroscopy. Its optical
data showed that this is the fastest evolving and among the least luminous
GRB-SNe (70% as luminous as SN1998bw). However, its expansion velocity and a
comparison with other stripped-envelope SNe suggest that SN2006aj is an
intermediate object between Type Ic GRB-SNe and those not accompained by a GRB.
High-resolution optical spectroscopy together with SDSS pre-burst observations
revealed that the host galaxy of SN2006aj is a low-luminosity, metal-poor
star-forming dwarf galaxy.Comment: To appear in conf. proc. of "The Multicoloured Landscape of Compact
Objects and their Explosive Progenitors: Theory vs Observations", a
conference held in Cefalu, Sicily, June 11-24, 200
Cyclotron lines in X-ray pulsars as a probe of relativistic plasmas in superstrong magnetic fields
The systematic search for the presence of cyclotron lines in the spectra of
accreting X-ray pulsars is being carried on with the BeppoSAX satellite since
the beginning of the mission. These highly successful observations allowed the
detection of cyclotron lines in many of the accreting X-ray pulsars observed.
Some correlations between the different measured parameters were found. We
present these correlations and discuss them in the framework of the current
theoretical scenario for the X-ray emission from these sources.Comment: 5 pages, 2 figures, uses aipproc.sty, to appear in Proceeding of
Fifth Compton Symposiu
The cosmic X-ray background and the population of the most heavily obscured AGNs
We report on an accurate measurement of the CXB in the 15-50 keV range
performed with the Phoswich Detection System (PDS) instrument aboard the
BeppoSAX satellite. We establish that the most likely CXB intensity level at
its emission peak (26-28 keV) is ~40 keV/cm2/s/sr, a value consistent with that
derived from the best available CXB measurement obtained over 25 years ago with
the first High Energy Astronomical Observatory satellite mission (HEAO-1;
Gruber et al. 1999), whose intensity, lying well below the extrapolation of
some lower energy measurements performed with focusing telescopes, was
questioned in the recent years. We find that 90% of the acceptable solutions of
our best fit model to the PDS data give a 20-50 keV CXB flux lower than 6.5E-08
erg/cm2/s/sr, which is 12% higher than that quoted by Gruber et al. (1999) when
we use our best calibration scale. This scale gives a 20-50 keV flux of the
Crab Nebula of 9.22E-09 erg/cm2/s, which is in excellent agreement with the
most recent Crab Nebula measurements and 6% smaller than that assumed by Gruber
et al. (1999). In combination with the CXB synthesis models we infer that about
25% of the intensity at ~30 keV arises from extremely obscured, Compton thick
AGNs (absorbing column density N_H > 1.0E+24 H/cm2), while a much larger
population would be implied by the highest intensity estimates. We also infer a
mass density of supermassive BHs of ~3.0E+05 Msol/Mpc3. The summed contribution
of resolved sources (Moretti et al. 2003) in the 2-10 keV band exceeds our best
fit CXB intensity extrapolated to lower energies, but it is within our upper
limit, so that any significant contribution to the CXB from sources other than
AGNs, such as star forming galaxies and diffuse Warm-Hot Intergalactic Medium
(WHIM), is expected to be mainly confined below a few keV.Comment: Accepted for publication in ApJ Main: 30 pages, 3 Tables, 8 Figures.
Many revisions due to the change of the Journa
Synergy between THESEUS and E-ELT
The Transient High Energy Sky and Early Universe Surveyor (THESEUS) is a space mission concept aimed at exploiting Gamma-Ray Bursts for investigating the early Universe and at providing a substantial advancement of multi-messenger and time-domain astrophysics. A fundamental contribution to achieve this goal will be provided by the powerful synergy between THESEUS and the extremely large ground-based telescopes which will operate in the next decade, like E-ELT. We discuss great improvements coming from this joint effort and describe some possible observing scenarios
GRB follow-up and science with THESEUS/IRT
The aim of the space mission concept THESEUS is to continue to collect and study the GRB events like Swift. It will allow us to study the early Universe. Moreover, it will offer us to study with unprecedented sensitivity GRB emission and to measure the redshift for the bursts with z>5. In this work, we investigate the advantages of a optical and near-infrared telescope mounted on the same satellite that is triggered by the GRB like THESEUS/IRT. Afterwards, we investigate the possible future developments in the GRB science, first for the prompt phase and the for afterglow phase. We find that more than half of the sources detected by THESEUS, and will never be visible from a a ground-based telescope. Moreover, only ∼50% of all observable sources are visible within one hour, i.e. <30% of all THESEUS transient sources. A higher number of observable sources can only be achieved with a network of telescopes. THESEUS will permit to detect the NIR prompt phase of the longest GRBs, increasing the number of events studied from gamma-rays to the near-infrared from a handful of events studied up to now to ≳10 GRBs per year
Evolution of the Polarization of the Optical Afterglow of the Gamma-ray Burst GRB 030329
The association of a supernova with GRB 0303291,2 strongly supports the collapsar model3 of -ray bursts (GRBs), where a relativistic jet4 forms after 1 the progenitor star collapses. Such jets cannot be spatially resolved because of their cosmological distances. Their existence is conjectured based on breaks in GRB afterglow light curves and the theoretical desire to reduce the GRB energy requirements. Temporal evolution of polarization5,6,7 may provide independent evidence for the jet structure of the relativistic outflow. Small-level polarization ( 1-3%)8−17 has been reported for a few bursts, but the temporal evolution of polarization properties could not be established. Here, we report polarimetric observations of the afterglow of GRB 030329 with high signal-to-noise and high sampling frequency. We establish the polarization light curve, detect sustained polarization at the percent level, and find significant variability. The data imply that the afterglow magnetic field has small coherence length and is mostly random, probably generated by turbulence, in contrast with the high polarization detected in the prompt -rays from GRB 02120618. Our results suggest a different structure and origin of the magnetic field in the prompt vs. afterglow emission regions
The host galaxy of the short GRB 050709
The host of the short gamma-ray burst (GRB) 050709 is a morphologically disturbed low-luminous galaxy. At a redshift of z = 0.16, it belongs to one of the cosmologically nearest short-GRB hosts identified to date. Consequently, it represents a promising target for sensitive, spatially resolved observational studies. We have used the Multi Unit Spectroscopic Explorer (MUSE) mounted at the Very Large Telescope to characterize the GRB host galaxy. In addition, we performed deep radio-continuum observations of the host with the Australia Telescope Compact Array (ATCA) and with ALMA at 1.3 mm. Moreover, we made use of archival Spitzer Space Telescope 24 μm and Hubble Space Telescope/F814W imaging data of this galaxy. The spatially resolved MUSE data reveal that the entire host is a source of strong line emission, in particular from Hα and [O II
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