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On the Broad Band Energy Distribution of Blazars

Published online by Cambridge University Press:  19 July 2016

Laura Maraschi
Affiliation:
Dipartimento di Fisica, Università di Milano, via Celoria 16, 20133 Milano, Italy
Gabriele Ghisellini
Affiliation:
Osservatorio di Torino, Strada Osservatorio 20, 10025 Torino, Italy
Annalisa Celotti
Affiliation:
Institute of Astronomy, Madingley Road, Cambridge CB3 0KA, United Kingdom

Abstract

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The broad band energy distributions of blazars are revisited with particular emphasis on the sources detected in γ-rays by the Compton Observatory (GRO). The observed distributions can be broken down into two main components, corresponding to two broad peaks in the vFv representation. The first occurs in the FIR-optical range, the second in the MeV-GeV region. In the case of MKN 421, which may be representative of X-ray selected BL Lacs, the first peak is shifted to higher frequency (≃ 1016 Hz) and the γ-ray spectrum extends to TeV energies. There is general agreement that the first spectral component is due to synchrotron radiation from a relativistic jet, although some problems remain in deriving the spectrum and location of the emitting relativistic electrons. The second component, which in most objects extends from the X-ray to the γ-ray range, can be naturally interpreted as inverse Compton scattering by the same electrons producing the synchrotron photons, either on the synchrotron photons themselves (SSC) or on photons external to the jet. It is argued that multifrequency studies of these sources including γ-rays will allow to test Inverse Compton models and to distinguish between different sources of photons.

Type
Correlations between Emission Components
Copyright
Copyright © Kluwer 1994 

References

Bertsch, D.L. et al., 1993, ApJ, 405, L21 Google Scholar
Blandford, R.D. & Rees, M.J., 1978, in “Pittsburgh Conference on BL Lac Objects”, ed. Wolfe, A.N. (Pittsburgh University Press), p. 328 Google Scholar
Bregman, J.N., 1985, ApJ, 288, 32 Google Scholar
Celotti, A., Maraschi, L. & Treves, A., 1991, ApJ, 337, 403 Google Scholar
Dermer, C.D., Schlickeiser, R. & Mastichiadis, A., 1992, AA, 256, L27 Google Scholar
Ghisellini, G., 1993, proc. of the Cospar Symposium (Washington), in press.Google Scholar
Ghisellini, G. & Maraschi, L., 1989, ApJ 340, 181 Google Scholar
Ghisellini, G. & Maraschi, L., 1993, Proc. 2nd Compton Symp., Maryland, in press Google Scholar
Ghisellini, G., Maraschi, L. & Treves, A., 1985, A.A., 146, 204 (GMT) Google Scholar
Ghisellini, G., Maraschi, L., Tanzi, E. & Treves, A., 1986, ApJ, 310, 317 Google Scholar
Ghisellini, G., Padovani, P., Celotti, A. & Maraschi, L., 1993, ApJ, 407, 65 Google Scholar
Hartmann, R.C. et al. 1993, Proc. 2nd Compton Symp., Maryland, in press.Google Scholar
Hartman, R.C. et al., 1992, ApJ, 385, L1.Google Scholar
Hunter, S.D. et al., 1993a, ApJ, 409, 134.Google Scholar
Hunter, S.D. et al., 1993b, AA, 272, 59 Google Scholar
Impey, C.D. & Neugebauer, G., 1988, AJ, 95, 307 Google Scholar
Kniffen, D.A. et al. 1993, ApJ, 411, 133 CrossRefGoogle Scholar
Königl, A., 1989, in “BL Lac Objects”, eds. Maraschi, L., Maccacaro, T. and Ulrich, M-H. (Springer-Verlag), p. 321 Google Scholar
Kühr, H., Witzel, A., Pauliny-Toth, I.I.K & Nauber, U., 1981, AA (Suppl), 45, 367.Google Scholar
Landau, R. et al., 1986, ApJ, 308, 78 Google Scholar
Lin, Y.C., et al., 1992, ApJ, 401, L61 Google Scholar
Madau, P., Ghisellini, G. & Persic, M., 1987, MNRAS, 224, 257 Google Scholar
Mannheim, K., 1993, AA, 269, 67 Google Scholar
Maraschi, L., Ghisellini, G. & Boccasile, A. 1993, Proc. Physics of AGNs, Cambrige, in press Google Scholar
Maraschi, L., Ghisellini, G. & Celotti, A. 1992, ApJ, 397, L5 Google Scholar
Maraschi, L., Ghisellini, G., Tanzi, E.G., & Treves, A., 1986, ApJ, 310, 325.CrossRefGoogle Scholar
Marscher, A.P., Gear, W.K. & Travis, J.P. 1992, in “Variability of blazars”, eds. Valtaoja, E. and Valtonen, M. (Cambridge Univ. Press), p. 85 Google Scholar
Marscher, A.P., 1993, in Astrophys. Jets, eds. Burgarella, D., Livio, M. & O'Dea, C., Cambridge University Press, in press.Google Scholar
Pian, E. & Treves, A., 1993, ApJ, 416, 130 Google Scholar
Punch, M. et al., 1992, Nature, 358, 477 Google Scholar
Sambruna, , et al., 1993, ApJ, submitted.Google Scholar
Sikora, M., Begelman, M.C. & Rees, M.J., 1993, ApJ, in press Google Scholar
Sikora, M., 1993, ApJ Suppl. in press (proceed, of the 142 IAU Symp.) Google Scholar
Tanzi, E. et al., 1989, in BL Lac Objects, Lecture Notes in Physics, 334, p.171, eds. Maraschi, L., Maccacaro, T. & Ulrich, M.H., Springier-Verlag Google Scholar
Thompson, D.J., et al., 1993a, ApJ, 410, 87 Google Scholar
Thompson, D.J., et al., 1993b, ApJ, 415, L13 Google Scholar
Treves, A. et al., 1993, ApJ, 406, 447 Google Scholar
Valtoja, E., Lahteenmaki, A. & Terasranta, H., 1992, preprint Google Scholar
Wall, J.V., & Peacock, J.A., 1985, MNRAS, 216, 173.Google Scholar
Wiren, S., Valtoja, E., Terasranta, H. & Kotilainen, , 1992, preprint Google Scholar
Worral, D.M. & Wilkes, B.J., 1990, ApJ, 360, 396 Google Scholar