4,451 research outputs found
Application of the MST clustering to the high energy gamma-ray sky. III - New detections of gamma-ray emission from blazars
We present the results of a photon cluster search in the gamma-ray sky
observed by the Fermi Large Area Telescope, using the new Pass 8 dataset, at
energies higher than 10 GeV. By means of the Minimum Spanning Tree (MST)
algorithm, we found 25 clusters associated with catalogued blazars not
previously known as gamma-ray emitters. The properties of these sources are
discussed.Comment: 10 pages, 3 figures. Accepted for publication in Astrophysics & Space
Scienc
The WISE gamma-ray strip parametrization: the nature of the gamma-ray Active Galactic Nuclei of Uncertain type
Despite the large number of discoveries made recently by Fermi, the origins
of the so called unidentified gamma-ray sources remain unknown. The large
number of these sources suggests that among them there could be a population
that significantly contributes to the isotropic gamma-ray background and is
therefore crucial to understand their nature. The first step toward a complete
comprehension of the unidentified gamma-ray source population is to identify
those that can be associated with blazars, the most numerous class of
extragalactic sources in the gamma-ray sky. Recently, we discovered that
blazars can be recognized and separated from other extragalactic sources using
the infrared (IR) WISE satellite colors. The blazar population delineates a
remarkable and distinctive region of the IR color-color space, the WISE blazar
strip. In particular, the subregion delineated by the gamma-ray emitting
blazars is even narrower and we named it as the WISE Gamma-ray Strip (WGS). In
this paper we parametrize the WGS on the basis of a single parameter s that we
then use to determine if gamma-ray Active Galactic Nuclei of the uncertain type
(AGUs) detected by Fermi are consistent with the WGS and so can be considered
blazar candidates. We find that 54 AGUs out of a set 60 analyzed have IR colors
consistent with the WGS; only 6 AGUs are outliers. This result implies that a
very high percentage (i.e., in this sample about 90%) of the AGUs detected by
Fermi are indeed blazar candidates.Comment: 22 pages, 13 figures, Astrophysical Journal in pres
The X-ray emission of the Crab-like pulsar PSR J0537-6910
In this paper we present some preliminary result on the spectral and timing
analysis of the X-ray pulsed emission from the 16 ms pulsar PSR J0537-6910 in
the energy range 0.1--30 keV, based on archival BeppoSAX and RossiXTE
observations. This pulsar, discovered by Marshall et al.(1998) in the LMC field
with RXTE, is the fastest spinning pulsar associated with a supernova remnant.
It is characterized by strong glitch activity with the highest rate of all
known Crab-like system.Comment: 4 pages, 2 figures. Contribution to the proceedings of "The Restless
High-Energy Universe", Amsterdam, May 5-8, 2003. Editors: E.P.J. van den
Heuvel, J.J.M. in't Zand, R.A.M.J. Wijer
Application of the MST clustering to the high energy gamma-ray sky. I - New possible detection of high-energy gamma-ray emission associated with BL Lac objects
In this paper we show an application of the Minimum Spanning Tree (MST)
clustering method to the high-energy gamma-ray sky observed at energies higher
than 10 GeV in 6.3 years by the Fermi-Large Area Telescope. We report the
detection of 19 new high-energy gamma-ray clusters with good selection
parameters whose centroid coordinates were found matching the positions of
known BL Lac objects in the 5th Edition of the Roma-BZCAT catalogue. A brief
summary of the properties of these sources is presented.Comment: 11 pages, 7 figures. Accepted for publication in Astrophysics & Space
Scienc
The Long Term Optical Variability of the BL Lac object S5 0716+714: Evidence for a Precessing Jet
We present the historic light curve of the BL Lac object S5 0716+714,
spanning the time interval from 1953 to 2003, built using Asiago archive plates
and our recent CCD observations, together with literature data. The source
shows an evident long term variability, over which well known short term
variations are superposed. In particular, in the period from 1961 to 1983 the
mean brightness of S5 0716+714 remained significantly fainter than that
observed after 1994. Assuming a constant variation rate of the mean magnitude
we can estimate a value of about 0.11 magnitude/year. The simultaneous
occurrence of decreasing ejection velocities of superluminal moving components
in the jet reported by Bach et al. (2005) suggests that both phenomena are
related to the change of the direction of the jet to the line of sight from
about 5 to 0.7 degrees for an approximately constant bulk Lorentz factor of
about 12. A simple explanation is that of a precessing relativistic jet, which
should presently be close to the smallest orientation angle. One can therefore
expect in the next ten years a decrease of the mean brightness of about 1
magnitude.Comment: to appear on The Astronomical Journal, 17 pages, 7 figures. Fig.2 is
given as a separated jpg fil
Infrared Colors of the gamma-ray detected blazars
Blazars constitute the most enigmatic class of extragalactic gamma-ray
sources, and their observational features have been ascribed to a relativistic
jet closely aligned to the line of sight. They are generally divided in two
main classes: the BL Lac objects (BL Lacs) and the Flat Spectrum Radio Quasars
(FSRQs). In the case of BL Lacs the double bumped spectral energy distribution
(SED) is generally described by the Synchrotron Self Compton (SSC) emission,
while for the FSRQs it is interpreted as due to External Compton (EC) emission.
Recently, we showed that in the [3.4]-[4.6]-[12] micron color- color diagram
the blazar population covers a distinct region (i.e., the WISE blazar Strip,
WBS), clearly separated from the other extragalactic sources that are dominated
by thermal emission. In this paper we investigate the relation between the
infrared and gamma-ray emission for a subset of confirmed blazars from the
literature, associated with Fermi sources, for which WISE archival observations
are available. This sample is a proper subset of the sample of sources used
previously, and the availability of Fermi data is critical to constrain the
models on the emission mechanisms for the blazars. We found that the selected
blazars also lie on the WISE blazar Strip covering a narrower region of the
infrared color-color planes than the overall blazars population. We then found
an evident correlation between the IR and gamma-ray spectral indices expected
in the SSC and EC frameworks. Finally, we determined the ratio between their
gamma-ray and infrared fluxes, a surrogate of the ratio of powers between the
inverse Compton and the synchrotron SED components, and used such parameter to
test different emitting scenarios blazars.Comment: 15 pages, 14 figure, accepted for publication in ApJ, to appear in
2012 March 20 editio
The optical to gamma-ray emission of the Crab pulsar: a multicomponent model
We present a multicomponent model to explain the features of the pulsed
emission and spectrum of the Crab Pulsar, on the basis of X and gamma-ray
observations obtained with BeppoSAX, INTEGRAL and CGRO. This model explains the
evolution of the pulse shape and of the phase-resolved spectra, ranging from
the optical/UV to the GeV energy band, on the assumption that the observed
emission is due to more components. The first component, C_O, is assumed to
have the pulsed double-peaked profile observed at the optical frequencies,
while the second component, C_X, is dominant in the interpeak and second peak
phase regions. The spectra of these components are modelled with log-parabolic
laws and their spectral energy distributions have peak energies at 12.2 and 178
keV, respectively. To explain the properties of the pulsed emission in the
MeV-GeV band, we introduce two more components, C_Ogamma and C_Xgamma, with
phase distributions similar to those of C_O and C_X and log-parabolic spectra
with the same curvature but peak energies at about 300 MeV and 2 GeV. This
multicomponent model is able to reproduce both the broadband phase-resolved
spectral behaviour and the changes of the pulse shape with energy. We also
propose some possible physical interpretations in which C_O and C_X are emitted
by secondary pairs via a synchrotron mechanism while C_Ogamma and C_Xgamma can
originate either from Compton scattered or primary curvature photons.Comment: 14 pages, 16 figures; accepted by Astronomy and Astrophysic
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