Abstract
Over the past decade, our knowledge of the γ -ray sky has been revolutionized by ground- and space-based observatories by detecting photons up to several hundreds of tera-electron volt (TeV) energies. A major population of the γ -ray bright objects are active galactic nuclei (AGN) with their relativistic jets pointed along our line-of-sight. Gamma-ray emission is also detected from nearby misaligned AGN such as radio galaxies. While the TeV-detected radio galaxies ( T e V R a d ) only form a small fraction of the γ -ray detected AGN, their multi-wavelength study offers a unique opportunity to probe and pinpoint the high-energy emission processes and sites. Even in the absence of substantial Doppler beaming T e V R a d are extremely bright objects in the TeV sky (luminosities detected up to 10 45 erg s − 1 ), and exhibit flux variations on timescales shorter than the event-horizon scales (flux doubling timescale less than 5 min). Thanks to the recent advancement in the imaging capabilities of high-resolution radio interferometry (millimeter very long baseline interferometry, mm-VLBI), one can probe the scales down to less than 10 gravitational radii in T e V R a d , making it possible not only to test jet launching models but also to pinpoint the high-energy emission sites and to unravel the emission mechanisms. This review provides an overview of the high-energy observations of T e V R a d with a focus on the emitting sites and radiation processes. Some recent approaches in simulations are also sketched. Observations by the near-future facilities like Cherenkov Telescope Array, short millimeter-VLBI, and high-energy polarimetry instruments will be crucial for discriminating the competing high-energy emission models.
Highlights
An exciting discovery enabled by space- and ground-based high-energy observations is the detection of γ-rays from over 3000 extragalactic sources
This review provides an overview of the high-energy observations of TeV-detected radio galaxies (TeVRad) with a focus on the emitting sites and radiation processes
active galactic nuclei (AGN) often produce collimated outflows, called relativistic jets, whose beams of radiation pierce through the Universe and reach us from the past, offering a unique opportunity to study the Universe when it was an order of magnitude younger than today
Summary
An exciting discovery enabled by space- and ground-based high-energy observations is the detection of γ-rays from over 3000 extragalactic sources. Radio galaxies are a interesting class of objects to understand several aspects of AGN physics and high-energy emission, i.e., how the relativistic outflows are launched and driven, what drives the particle acceleration, and how and where high-energy emission is produced in jets. Several of these key questions can be addressed via studying the TeVRad. This review paper summarizes the key observations of TeVRad, with an overview about the possible particle acceleration processes and emission mechanisms, and concentrates on the jet structure and multi-wavelength variability rather than spectral modeling, which is a separate topic. The interested reader is referred to the review article by Rieger and Levinson [24]
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