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Long Term Monitoring of the Dynamics and Particle Acceleration of Knots in the Jet of Centaurus A

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arxiv 0911.2115 v1 pith:PKPPPEZS submitted 2009-11-11 astro-ph.CO astro-ph.HE

Long Term Monitoring of the Dynamics and Particle Acceleration of Knots in the Jet of Centaurus A

classification astro-ph.CO astro-ph.HE
keywords knotsx-rayaccelerationparticlemovingradiobasecentaurus
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present new and archival multi-frequency radio and X-ray data for Centaurus A obtained over almost 20 years at the VLA and with Chandra, with which we measure the X-ray and radio spectral indices of jet knots, flux density variations in the jet knots, polarization variations, and proper motions. We compare the observed properties with current knot formation models and particle acceleration mechanisms. We rule out impulsive particle acceleration as a formation mechanism for all of the knots as we detect the same population of knots in all of the observations and we find no evidence of extreme variability in the X-ray knots. We find the most likely mechanism for all the stationary knots is a collision resulting in a local shock followed by a steady state of prolonged, stable particle acceleration and X-ray synchrotron emission. In this scenario, the X-ray-only knots have radio counterparts that are too faint to be detected, while the radio-only knots are due to weak shocks where no particles are accelerated to X-ray emitting energies. Although the base knots are prime candidates for reconfinement shocks, the presence of a moving knot in this vicinity and the fact that there are two base knots are hard to explain in this model. We detect apparent motion in three knots; however, their velocities and locations provide no conclusive evidence for or against a faster moving `spine' within the jet. The radio-only knots, both stationary and moving, may be due to compression of the fluid.

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