The Spectral Energy Distribution of Fermi bright blazars

A. A. Abdo; M. Ackermann; M. Ajello; M. Axelsson; L. Baldini; J.; Ballet; G. Barbiellini; D. Bastieri; B. M. Baughman; K. Bechtol; R.; Bellazzini; B. Berenji; R. D. Blandford; E. D. Bloom; E. Bonamente; A.; Borgland; J. Bregeon; A. Brez; M. Brigida; P. Bruel; T. H. Burnett; S. Buson,; G. A. Caliandro; R. A. Cameron; P. A. Caraveo; J. M. Casandjian; E.; Cavazzuti; C. Cecchi; O. Celik; E. Charles; S. Chaty; A. Chekhtman; J.; Chiang; S. Ciprini; R. Claus; J. Cohen-Tanugi; S. Colafrancesco; L. R.; Cominsky; J. Conrad; L. Costamante; S. Cutini; C. D. Dermer; A. de Angelis,; F. de Palma; S. W. Digel; E. do Couto e Silva; P. S. Drell; R. Dubois; D.; Dumora; C. Farnier; C. Favuzzi; S. J. Fegan; W. B. Focke; P. Fortin; M.; Frailis; L. Fuhrmann; Y. Fukazawa; S. Funk; P. Fusco; F. Gargano; D.; Gasparrini; N. Gehrels; S. Germani; B. Giebels; N. Giglietto; P. Giommi; F.; Giordano; T. Glanzman; G. Godfrey; I. A. Grenier; J. E. Grove; L. Guillemot,; S. Guiriec; D. Hadasch; Y. Hanabata; A. K. Harding; M. Hayashida; E. Hays; S.; E. Healey; D. Horan; R. E. Hughes; R. Itoh; M. S. Jackson; G. Johannesson; A.; S. Johnson; W. N. Johnson; M. Kadler; T. Kamae; H. Katagiri; J. Kataoka; N.; Kawai; M. Kerr; J. Knodlseder; M. L. Kocian; M. Kuss; J. Lande; L. Latronico,; F. Longo; F. Loparco; B. Lott; M. N. Lovellette; P. Lubrano; G. M. Madejski,; A. Makeev; W. Max-Moerbeck; M. N. Mazziotta; W. McConville; J. E. McEnery; C.; Meurer; P. F. Michelson; et al

arXiv:0912.2040·astro-ph.CO·November 20, 2014

The Spectral Energy Distribution of Fermi bright blazars

A. A. Abdo, M. Ackermann, M. Ajello, M. Axelsson, L. Baldini, J., Ballet, G. Barbiellini, D. Bastieri, B. M. Baughman, K. Bechtol, R., Bellazzini, B. Berenji, R. D. Blandford, E. D. Bloom, E. Bonamente, A., Borgland, J. Bregeon, A. Brez, M. Brigida, P. Bruel, T. H. Burnett

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TL;DR

This study analyzes the broad-band spectral energy distributions of Fermi bright blazars, revealing typical spectral signatures, correlations between spectral features, and limitations of simple models in explaining observed data.

Contribution

It provides high-quality, quasi-simultaneous SEDs for 48 blazars and derives empirical relationships for peak positions, highlighting the complexity beyond simple SSC models.

Findings

01

SEDs show typical blazar spectral signatures

02

Gamma-ray spectral slope correlates with synchrotron peak energy

03

Simple homogeneous SSC models are insufficient for most SEDs

Abstract

(Abridged) We have conducted a detailed investigation of the broad-band spectral properties of the \gamma-ray selected blazars of the Fermi LAT Bright AGN Sample (LBAS). By combining our accurately estimated Fermi gamma-ray spectra with Swift, radio, infra-red, optical and other hard X-ray/gamma-ray data, collected within three months of the LBAS data taking period, we were able to assemble high-quality and quasi-simultaneous Spectral Energy Distributions (SED) for 48 LBAS blazars.The SED of these gamma-ray sources is similar to that of blazars discovered at other wavelengths, clearly showing, in the usual Log $ν$ - Log $ν$ F $_{ν}$ representation, the typical broad-band spectral signatures normally attributed to a combination of low-energy synchrotron radiation followed by inverse Compton emission of one or more components. We have used these SEDs to characterize the peak intensity…

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