Jet emission in NGC1052 at radio, optical, and X-ray frequencies
Abstract
We present a combined radio, optical, and X-ray study of the nearby LINER galaxy NGC 1052. Data from a short (2.3 ksec) CHANDRA observation of NGC 1052 reveal the presence of various jet-related X-ray emitting regions, a bright compact core and unresolved knots in the jet structure as well as an extended emitting region inside the galaxy well aligned with the radio synchrotron jet-emission. The spectrum of the extended X-ray emission can best be fitted with a thermal model with kT = (0.4-0.5) keV, while the compact core exhibits a very flat spectrum, best approximated by an absorbed power-law with N H = (0.6-0.8) × 1022 cm-2. We compare the radio structure to an optical ``structure map'' from a Hubble Space Telescope ( HST) observation and find a good positional correlation between the radio jet and the optical emission cone. Bright, compact knots in the jet structure are visible in all three frequency bands whose spectrum is inconsistent with synchrotron emission.
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