Hunting Very High-Energy (>100 GeV) Emitting High-Synchrotron Peaked Blazars
Abstract
Very-high energy (VHE; >100 GeV) γ-ray emission originates via some of the most extreme particle acceleration processes in the universe. Considering beamed active galactic nuclei, i.e., blazars, only a small fraction, mainly high synchrotron peak BL Lacs, have been detected in the VHE band with the ground-based Cherenkov telescopes. We utilized 16 years of Fermi-Large Area Telescope (LAT) observations in the 0.1-2 TeV energy range to systematically search for potential VHE emitters in a sample of high synchrotron peaked ( peak syn>1015 Hz) BL Lac sources. We identified, for the first time, 92 VHE emitting blazars at ≥ 5σ confidence level. A significant VHE emission was also detected from 52 sources previously reported as VHE blazars. Comparing with the general blazar population, these VHE emitting blazars are found to be located at low redshifts (mean z=0.2 0.1) and exhibit bright synchrotron emission ( F peak syn=-11.2 0.4, in erg cm-2 s-1). We also investigated the coincidence of VHE photon arrivals with the source activity states and found that Fermi-LAT has detected VHE photons during both quiescent and elevated activity epochs. These VHE emitting blazars represent promising targets for current and next-generation ground-based Cherenkov telescopes, and provide powerful laboratories for probing particle acceleration in relativistic jets, testing multi-messenger connections, and constraining extragalactic background light models.
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