EPJ Web Conf.
Volume 210, 2019Ultra High Energy Cosmic Rays 2018 (UHECR 2018)
|Number of page(s)||6|
|Published online||17 May 2019|
On the maximum energy of protons in the hotspots of AGN jets
Astronomical Institute, Czech Academy of Sciences, Bočni II1401, CZ-141 00 Prague, Czech Republic
2 ELI Beamlines, Za Radnicí 835, 25 2 41 Dolní Břežany, Czech Republic
3 Clarendon Laboratory, University of Oxford, Parks Road, Oxford OX1 3PU, UK
4 Astrophysics, University of Oxford, Keble Road, Oxford, OX1 3RH, UK
* e-mail: μAnabella.Araudo@eli-beams.cz
Published online: 17 May 2019
We study particle acceleration and magnetic field amplification in the termination shocks (hotspots) of radiogalaxy jets. The cut-off of the synchrotron spectrum in the hotspots of powerful radiogalaxies is typically observed between infrared and optical frequencies, indicating that the maximum energy of non-thermal electrons accelerated at the jet termination shock is about 1 TeV for a canonical magnetic field of 100 μG. Based on theoretical considerations and observational data we show that the maximum energy of electrons cannot be constrained by synchrotron losses as usually assumed, unless the jet density is unreasonable large and most of the jet kinetic energy goes to non-thermal electrons. The maximum energy is ultimately determined by the ability to scatter particles back and forth the shock, and this limit applies to both electrons and protons. Therefore, the maximum energy of protons is also about 1 TeV when radiative cooling is not efficient. We show that non-resonant hybrid (Bell) instabilities generated by the streaming of cosmic rays can grow fast enough to amplify the jet magnetic field up to 100 μG and accelerate particles up to the maximum energies observed in the hotspots of radiogalaxies.
© The Authors, published by EDP Sciences, 2019
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