Astronomy and Astrophysics – Astrophysics
Scientific paper
1996-08-10
Astronomy and Astrophysics
Astrophysics
18 pages, 6 figures, accepted for publication in Astroparticle Physics. Revised version contains 2 additional figures and more
Scientific paper
10.1016/S0927-6505(96)00063-1
Gamma rays have been observed from two blazars at TeV energies. One of these, Markarian 421, has been observed also at GeV energies and has roughly equal luminosity per decade at GeV and TeV energies. Photon-photon pair production on the infrared background radiation is expected to prevent observation above about 1 TeV. However, the infrared background is not well known and it may be possible to observe the nearest blazars up to energies somewhat below about 100 TeV where absorption on the cosmic microwave background will give a sharp cut-off. Blazars are commonly believed to correspond to low power radio galaxies, seen down along a relativistic jet; as such they are all expected to have the nuclear activity encircled by a dusty molecular torus, which subtends an angle of 90 degrees or more in width as seen from the central source. Photon-photon pair production can also take place on the infrared radiation produced at the AGN by this molecular torus and surrounding outer disk. We calculate the optical depth for escaping gamma-rays produced near the central black hole and at various points along the jet axis for the case of blazars where the radiation is observed in a direction closely aligned with the jet. We find that the TeV emission site must be well above the top of the torus. For example, if the torus has an inner radius of 0.1 pc and an outer radius of 0.2 pc, then the emission site in Mrk 421 would have be at least 0.25 pc above the upper surface of the torus, and if Mrk 421 is observed above 50 TeV in the future, the emission site would have to be at least 0.5 pc above the upper surface. This has important implications for models of gamma-ray emission in active galactic nuclei.
Biermann Peter L.
Protheroe Raymond J.
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