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Discovery of very-high-energy emission from RGB J2243+203 and derivation of its redshift upper limit

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 Added by Anushka Abeysekara
 Publication date 2017
  fields Physics
and research's language is English




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Very-high-energy (VHE; $>$ 100 GeV) gamma-ray emission from the blazar RGB J2243+203 was discovered with the VERITAS Cherenkov telescope array, during the period between 21 and 24 December 2014. The VERITAS energy spectrum from this source can be fit by a power law with a photon index of $4.6 pm 0.5$, and a flux normalization at 0.15 TeV of $(6.3 pm 1.1) times 10^{-10} ~ textrm{cm}^{-2} textrm{s}^{-1} textrm{TeV}^{-1}$. The integrated textit{Fermi}-LAT flux from 1 GeV to 100 GeV during the VERITAS detection is $(4.1 pm 0.8) times 10^{textrm{-8}} ~textrm{cm}^{textrm{-2}}textrm{s}^{textrm{-1}}$, which is an order of magnitude larger than the four-year-averaged flux in the same energy range reported in the 3FGL catalog, ($4.0 pm 0.1 times 10^{textrm{-9}} ~ textrm{cm}^{textrm{-2}}textrm{s}^{textrm{-1}}$). The detection with VERITAS triggered observations in the X-ray band with the textit{Swift}-XRT. However, due to scheduling constraints textit{Swift}-XRT observations were performed 67 hours after the VERITAS detection, not simultaneous with the VERITAS observations. The observed X-ray energy spectrum between 2 keV and 10 keV can be fitted with a power-law with a spectral index of $2.7 pm 0.2$, and the integrated photon flux in the same energy band is $(3.6 pm 0.6) times 10^{-13} ~textrm{cm}^{-2} textrm{s}^{-1}$. EBL model-dependent upper limits of the blazar redshift have been derived. Depending on the EBL model used, the upper limit varies in the range from z $<~0.9$ to z $<~1.1$.



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Very high-energy gamma-ray emission from PKS 0447-439 was detected with the H.E.S.S. Cherenkov telescope array in December 2009. This blazar is one of the brightest extragalactic objects in the Fermi Bright Source List and has a hard spectrum in the MeV to GeV range. In the TeV range, a photon index of 3.89 +- 0.37 (stat) +- 0.22 (sys) and a flux normalisation at 1 TeV, Phi(1 TeV) = (3.5 +- 1.1 (stat) +- 0.9 (sys)) x 10^{-13} cm^{-2} s^{-1} TeV^{-1}, were found. The detection with H.E.S.S. triggered observations in the X-ray band with the Swift and RXTE telescopes. Simultaneous UV and optical data from Swift UVOT and data from the optical telescopes ATOM and ROTSE are also available. The spectrum and light curve measured with H.E.S.S. are presented and compared to the multi-wavelength data at lower energies. A rapid flare is seen in the Swift XRT and RXTE data, together with a flux variation in the UV band, at a time scale of the order of one day. A firm upper limit of z < 0.59 on the redshift of PKS 0447-439 is derived from the combined Fermi-LAT and H.E.S.S. data, given the assumptions that there is no upturn in the intrinsic spectrum above the Fermi-LAT energy range and that absorption on the Extragalactic Background Light (EBL) is not weaker than the lower limit provided by current models. The spectral energy distribution is well described by a simple one-zone Synchrotron Self-Compton (SSC) scenario, if the redshift of the source is less than z <~ 0.4.
We report on the detection of very-high-energy (VHE; $E > 100$ GeV) $gamma$-ray emission from the BL Lac objects KUV 00311-1938 and PKS 1440-389 with the High Energy Stereoscopic System (H.E.S.S.). H.E.S.S. observations were accompanied or preceded by multi-wavelength observations with Fermi/LAT, XRT and UVOT on board the Swift satellite, and ATOM. Based on an extrapolation of the Fermi/LAT spectrum towards the VHE $gamma$-ray regime, we deduce a 95% confidence level upper limit on the unknown redshift of KUV 00311-1938 of z < 0.98, and of PKS 1440-389 of z < 0.53. When combined with previous spectroscopy results the redshift of KUV 00311-1938 is constrained to $0.51 leq z < 0.98$ and for PKS 1440-389 to $0.14 lessapprox z < 0.53$.
We present new spectroscopic data of the BL Lac RGB 2243+203, and its surroundings, obtained with the OSIRIS Multi Object Spectrograph (MOS) mounted in the Gran Telescopio Canarias (GTC). The spectra of neither the BL Lac nor its host galaxy show any spectral feature, thus hindering direct determination of its redshift. The spectroscopic redshift distribution of objects in the MOS field of view shows four galaxies with redshift between 0.5258 and 0.5288. We make use of a statistical analysis to test the possibility that the targeted BL Lac may be a member of that group. By using the spectroscopic redshifts obtained with our GTC observations, we found that this probability is between 86% and 93%.
The detection of the high-frequency peaked BL Lac object (HBL) SHBL J001355.9-185406 ($z$=0.095) at high (HE; 100 MeV$<$E$<$300 GeV) and very high-energy (VHE; $E>100,{rm GeV}$) with the fer Large Area Telescope (LAT) and the High Energy Stereoscopic System (H.E.S.S.) is reported. Dedicated observations have been performed with the H.E.S.S. telescopes, leading to a detection at the $5.5,sigma$ significance level. The measured flux above 310 GeV is $(8.3 pm 1.7_{rm{stat}}pm 1.7_{rm{sys}})times 10^{-13}$ photons cms (about 0.6% of that of the Crab Nebula), and the power law spectrum has a photon index of indexHESS. Using 3.5 years of publicly available fla data, a faint counterpart has been detected in the LAT data at the $5.5,sigma$ significance level, with an integrated flux above 300 MeV of $(9.3 pm 3.4_{rm stat} pm 0.8_{rm sys})times 10^{-10}$ photons cms and a photon index of $Gamma = 1.96 pm 0.20_{rm stat} pm 0.08_{rm sys}$. X-ray observations with textit{Swift}-XRT allow the synchrotron peak energy in $ u F_ u$ representation to be located at $sim 1.0,{rm keV}$. The broadband spectral energy distribution is modelled with a one-zone synchrotron self-Compton (SSC) model and the optical data by a black-body emission describing the thermal emission of the host galaxy. The derived parameters are typical for HBLs detected at VHE, with a particle dominated jet.
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