Discovery of an Extreme MeV Blazar with the Swift Burst Alert Telescope
Abstract
The Burst Alert Telescope (BAT) onboard Swift detected bright emission from 15--195 keV from the source SWIFT~J0746.3+2548 (J0746 in the following), identified with the optically-faint (R ~ 19), z=2.979 quasar SDSS J074625.87+244901.2. Here we present Swift and multiwavelength observations of this source. The X-ray emission from J0746 is variable on timescales of hours to weeks in 0.5--8 keV and of a few months in 15--195 keV, but there is no accompanying spectral variability in the 0.5--8 keV band. There is a suggestion that the BAT spectrum, initially very hard (photon index Gamma ~ 0.7), steepened to Gamma ~ 1.3 in a few months, together with a decrease of the 15--195 keV flux by a factor ~ 2. The 0.5--8 keV continuum is well described by a power law with Gamma ~ 1.3, and spectral flattening below 1 keV. The latter can be described with a column density in excess of the Galactic value with intrinsic column density NHz ~ 1022 cm-2, or with a flatter power law, implying a sharp (DeltaGamma >= 1) break across 16 keV in the quasar's rest-frame. The Spectral Energy Distribution of J0746 is double-humped, with the first component peaking at IR wavelengths and the second component at MeV energies. These properties suggest that J0746 is a a blazar with high gamma-ray luminosity and low peak energy (MeV) stretching the blazar sequence to an extreme.
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