4,084 research outputs found
Status of Identification of VHE gamma-ray sources
With the recent advances made by Cherenkov telescopes such as H.E.S.S., the
field of very high-energy (VHE) gamma-ray astronomy has recently entered a new
era in which for the first time populations of Galactic sources such as e.g.
Pulsar wind nebulae (PWNe) or Supernova remnants (SNRs) can be studied.
However, while some of the new sources can be associated by positional
coincidence as well as by consistent multi-wavelength data to a known
counterpart at other wavelengths, most of the sources remain not finally
identified. In the following, the population of Galactic H.E.S.S. sources will
be used to demonstrate the status of the identifications, to classify them into
categories according to this status and to point out outstanding problems.Comment: To appear in Astrophysics and Space Science (Proceedings of "The
multimessenger approach to unidentified gamma-ray sources
Optimization of large homogeneous air Cherenkov arrays and application to the design of a 1TeV-100TeV gamma-ray observatory
At the time large air Cherenkov arrays are being discussed for future
gamma-ray observatories, we review the relationship between the targeted
capabilities and the main design parameters taking into account construction
costs. As an example application, we describe a telescope array optimized for
observations between 1 TeV and a few 100 TeV and use detailed simulations to
estimate its performances in comparison to science objectives.Comment: 23 pages, 16 figures, accepted for publication in Astroparticle
Physic
Constraints on the Optical-IR extragalactic background from gamma-ray absorption studies
Very high energy (VHE) gamma-rays from extragalactic sources, interacting by
gamma-gamma collisions with diffuse intergalactic radiation fields, provide an
alternative way to constrain the diffuse background light, completely
independent of direct measurements. The limits depend however on our knowledge
of the physics of the gamma-ray sources. After clarifying the interplay between
background light and VHE spectra, I summarize the extent and validity of the
obtainable limits, and where future improvements can be expected.Comment: 8 pages, 8 figures. To appear in Proceedings of IAU Symposium No.
284, The Spectral Energy Distribution of Galaxies (SED2011), Preston, UK, 5-9
sep. 2011 (corrected typos and updated affiliations
The Galactic Sky seen by H.E.S.S
The H.E.S.S. experiment is an array of four imaging Cherenkov telescopes
located in the Khomas Highlands of Namibia. It has been operating in its full
configuration since December 2003 and detects very-high-energy (VHE) gamma rays
ranging from 100 GeV to 50 TeV. Since 2004, the continuous observation of the
Galactic Plane by the H.E.S.S. array of telescopes has yielded the discovery of
more than 50 sources, belonging to the classes of pulsar wind nebulae (PWN),
supernova remnants (SNR), gamma ray binaries and, more recently, a stellar
cluster and molecular clouds in the vicinity of shell-type SNRs. Galactic
emission seen by H.E.S.S. and its implications for particle acceleration in our
Galaxy are discussed.Comment: Proceedings of COSPAR 2010 conference. Accepted for publication in
Advances in Space Research (special issue
TeV Gamma-ray Astronomy: A Summary
The field of TeV gamma-ray astronomy has produced many exciting results over
the last decade. Both the source catalogue, and the range of astrophysical
questions which can be addressed, continue to expand. This article presents a
topical review of the field, with a focus on the observational results of the
imaging atmospheric Cherenkov telescope arrays. The results encompass pulsars
and their nebulae, supernova remnants, gamma-ray binary systems, star forming
regions and starburst and active galaxies.Comment: 19 pages. Astroparticle Physics, in press. See published article for
higher resolution figures. Cite as: J. Holder, TeV gamma-ray astronomy: A
summary, Astropart. Phys. (2012),
http://dx.doi.org/10.1016/j.astropartphys.2012.02.01
Proton synchrotron radiation of large-scale jets in active galactic nuclei
I propose a new mechanism for explanation of nonthernal X-ray emission of
large-scale AGN jets. Namely, I assume that this radiation has synchrotron
origin emitted by extremely high energy protons, and discuss implications of
this model for several prominent hot spots and knots resolved by Chandra in
Pictor A, 3C 120, PKS 0637-752, 3C 273.Comment: 17 pages, 8 figures, submitted to MNRA
Formation of hard VHE gamma-ray spectra of blazars due to internal photon-photon absorption
The energy spectra of TeV gamma-rays from blazars, after being corrected for
intergalatic absorption in the Extragalactic Background Light (EBL), appear
unusually hard, a fact that poses challenges to the conventional models of
particle acceleration in TeV blazars and/or to the EBL models. In this paper we
show that the internal absorption of gamma-rays caused by interactions with
dense narrow-band radiation fields in the vicinity of compact gamma-ray
production regions can lead to the formation of gamma-ray spectra of an almost
arbitrary hardness. This allows significant relaxation of the current tight
constraints on particle acceleration and radiation models, although at the
expense of enhanced requirements to the available nonthermal energy budget. The
latter, however, is not a critical issue, as long as it can be largely
compensated by the Doppler boosting, assuming very large () Doppler
factors of the relativistically moving gamma-ray production regions. The
suggested scenario of formation of hard gamma-ray spectra predicts detectable
synchrotron radiation of secondary electron-positron pairs which might require
a revision of the current ``standard paradigm'' of spectral energy
distributions of gamma-ray blazars. If the primary gamma-rays are of hadronic
origin related to or interactions, the ``internal gamma-ray
absorption'' model predicts neutrino fluxes close to the detection threshold of
the next generation high energy neutrino detectors.Comment: 10 pages, 8 figures, submitted to MNRA
On design studies for the future 50 GeV arrays of imaging air Cherenkov telescopes
Arrays of imaging air Cherenkov telescopes (IACTs) like VERITAS, HESS have
been recently proposed as the instruments of the next generation for ground
based very high energy gamma-ray astronomy invading into 50-100 GeV energy
range. Here we present results of design studies for the future IACT arrays
which have been performed by means of Monte Carlo simulations. We studied
different trigger strategies, abilities of cosmic ray rejection for arrays of 4
and 16 telescopes with 10 m reflectors, equipped with cameras comprising 271
and 721 pixels of 0.25 and 0.15 degree, respectively. The comparative analysis
of the performance of such telescope arrays has been done for both camera
options, providing almost the same field of view of 4.3 degree. An important
issue is the choice of the optimum spacing between the telescopes in such an
array. In order to maximize the signal-to-noise ratio in observations at the
small zenith angles of 20 degree as well as at large zenith angles of 60
degree, different arrangements of IACT array have been examined. Finally, we
present a major recommendations regarding the optimum configuration.Comment: 5 pages, presented at the VERITAS Workshop on TeV Astrophysics of
Extragalactic Sources, eds. M. Catanese, J. Quinn, and T. Weekes, to be
published in Astroparticle Physic
Potential of the next generation VHE instruments to probe the EBL (I): the low- and mid-VHE
The diffuse meta-galactic radiation field at ultraviolet to infrared
wavelengths - commonly labeled extragalactic background light (EBL) - contains
the integrated emission history of the universe. Difficult to access via direct
observations indirect constraints on its density can be derived through
observations of very-high energy (VHE; E>100 GeV) gamma-rays from distant
sources: the VHE photons are attenuated via pair-production with the low energy
photons from the EBL, leaving a distinct imprint in the VHE spectra measured on
earth. Discoveries made with current generation VHE observatories like H.E.S.S.
and MAGIC enabled strong constraints on the density of the EBL especially in
the near-infrared. In this article the prospect of future VHE observatories to
derive new constraints on the EBL density are discussed. To this end, results
from current generation instruments will be extrapolated to the future
experiment's sensitivity and investigated for their power to enable new methods
and improved constraints on the EBL density.Comment: Accepted for publication in Astroparticle Physics; v2: extended
discussion following referees comments, conclusions unchange
Constraining the Cosmic Background Light with four BL Lac TeV spectra
The intrinsic BL Lac spectra above few hundreds GeV can be very different
from the observed ones due to the absorption effects by the diffuse
Extragalactic Background Light (EBL), at present poorly known. With the recent
results, there are now 4 sources with good spectral information: Mkn 421
(z=0.031), Mkn 501 (z=0.034), 1ES 1426+428 (z=0.129) and 1ES 1959+650
(z=0.047). Making simple assumptions on the shape of the intrinsic spectra
(according to the present blazar knowledge), we have considered the effects of
different EBL spectral energy distributions (SED) for the first time on all 4
objects together, deriving constraints for the EBL fluxes. These resulted
significantly lower than many direct estimates.Comment: 4 pages, 8 figures; to appear in the proceedings of the 2nd Veritas
Symposium: "TeV Astrophysics of extragalactic sources". April 2003, Chicag
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