Astronomy and Astrophysics – Astrophysics
Scientific paper
2005-01-27
Astrophys.J. 626 (2005) 120-127
Astronomy and Astrophysics
Astrophysics
25 pages, 8 figures included. Accepted for publication in The Astrophysical Journal
Scientific paper
10.1086/430087
Several low-power kiloparsec-scale jets in nearby radio galaxies are known for their synchrotron radiation extending up to optical and X-ray photon energies. Here we comment on high-energy gamma-ray emission of one particular object of this kind, i.e. the kiloparsec-scale jet of M 87 radio galaxy, resulting from comptonization of the starlight photon field of the host galaxy by the synchrotron-emitting jet electrons. In the analysis, we include relativistic bulk velocity of the jet, as well as the Klein-Nishina effects. We show, that upper limits to the kiloparsec-scale jet inverse-Compton radiation imposed by HESS and HEGRA Cherenkov Telescopes - which detected a variable source of VHE gamma-ray emission within 0.1 deg (~30 kpc) of the M 87 central region - give us an important constraint on the magnetic field strength in this object, namely that the magnetic field cannot be smaller than the equipartition value (referring solely to the radiating electrons) in the brightest knot of the jet, and most likely, is even stronger. In this context, we point out a need for the amplification of the magnetic energy flux along the M 87 jet from the sub-parsec to kiloparsec scales, suggesting the turbulent dynamo as a plausible process responsible for the aforementioned amplification.
Ostrowski Marcin
Siemiginowska Aneta
Sikora Marcin
Stawarz Lucasz
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