English

Multiwavelength Study of High-Redshift Blazars

High Energy Astrophysical Phenomena 2020-08-25 v1 Astrophysics of Galaxies

Abstract

High-redshift blazars are among the most powerful objects in the Universe. The spectral and temporal properties of thirty-three distant blazars (z>2.5z>2.5) detected in the high energy γ\gamma-ray band are investigated by analyzing the {\it Fermi}-LAT and {\it Swift} UVOT/ XRT data. The considered sources have soft time averaged γ\gamma-ray spectra (Γγ2.2\Gamma_{\rm \gamma}\geq2.2) whereas those that have been observed in the X-ray band have hard X-ray spectra (ΓX=1.011.86\Gamma_{\rm X}=1.01-1.86). The γ\gamma-ray flux of high-redshift blazars ranges from 4.84×10104.84\times10^{-10} to 1.50×107photoncm2s11.50\times10^{-7}\:{\rm photon\:cm^{-2}\:s^{-1}} and the luminosity is within (0.105.54)×1048ergs1(0.10-5.54)\times10^{48}\:{\rm erg\:s^{-1}} which during the γ\gamma-ray flares increases up to (0.11)×1050ergs1(0.1-1)\times10^{50}\:{\rm erg\:s^{-1}}. In the X-ray band, only the emission of PKS 0438-43, B2 0743+25 and TXS 0222+185 is found to vary in different Swift XRT observations whereas in the γ\gamma-ray band, the emission is variable for fourteen sources: the flux of B3 1343+451 and PKS 0537-286 changes in sub-day scales, that of PKS 0347-211 and PKS 0451-28 in day scales, while theγ\gamma-ray variability of the others is in week or month scales. The properties of distant blazar jets are derived by modeling the multiwavelength spectral energy distributions within a one-zone leptonic scenario assuming that the X-ray and γ\gamma-ray emissions are produced from inverse Compton scattering of synchrotron and dusty torus photons. From the fitting, the emission region size is found to be 0.05\leq0.05 pc and the magnetic field and the Doppler factor are correspondingly within 0.101.740.10-1.74 G and 10.027.410.0-27.4. By modeling the optical-UV excess, we found that the central black hole masses and accretion disk luminosities are within Ld(1.0910.94)×1046ergs1L_{\rm d}\simeq(1.09-10.94)\times10^{46}\:{\rm erg \: s^{-1}} and (1.695.35)×109M(1.69-5.35)\times10^{9}\:M_\odot, respectively.

Keywords

Cite

@article{arxiv.2008.09675,
  title  = {Multiwavelength Study of High-Redshift Blazars},
  author = {N. Sahakyan and D. Israyelyan and G. Harutyunyan and M. Khachatryan and S. Gasparyan},
  journal= {arXiv preprint arXiv:2008.09675},
  year   = {2020}
}

Comments

Accepted for publication in MNRAS

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