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Title:
The Identification of Infrared Synchrotron Radiation from Cassiopeia A
Authors:
Jones, T. J.; Rudnick, L.; DeLaney, T.; Bowden, J.
Affiliation:
AA(Astronomy Department, University of Minnesota, 116 Church Street SE, Minneapolis, MN 55455; Visiting Astronomer at the Infrared Telescope Facility, which is operated by the University of Hawaii under contract from the National Aeronautics and Space Administration.), AB(Astronomy Department, University of Minnesota, 116 Church Street SE, Minneapolis, MN 55455), AC(Astronomy Department, University of Minnesota, 116 Church Street SE, Minneapolis, MN 55455), AD(Astronomy Department, University of Minnesota, 116 Church Street SE, Minneapolis, MN 55455)
Publication:
The Astrophysical Journal, Volume 587, Issue 1, pp. 227-234. (ApJ Homepage)
Publication Date:
04/2003
Origin:
UCP
ApJ Keywords:
Acceleration of Particles, ISM: Individual: Name: Cassiopeia A, Magnetic Fields, Polarization, Radiation Mechanisms: Nonthermal, ISM: Supernova Remnants
DOI:
10.1086/368149
Bibliographic Code:
2003ApJ...587..227J

Abstract

We report the discovery of polarized flux at 2.2 μm from the bright shell of the ~320 yr old supernova remnant Cas A. The fractional polarizations are comparable at 6 cm and 2.2 μm, and the polarization angles are similar, demonstrating that synchrotron radiation from the same relativistic plasma is being observed at these widely separated wave bands. The relativistic electrons radiating at 2.2 μm have an energy of ~150 GeV, (γ~3×105), assuming an ~500 μG magnetic field. The total intensity at 2.2 μm lies close to the power-law extrapolation from radio frequencies, showing that relativistic particle acceleration is likely an ongoing process; the infrared emitting electrons were accelerated no longer than ~80 yr ago. There is a small but significant concave curvature to the spectrum, as expected if the accelerating shocks have been modified by the back pressure of the cosmic rays; given calibration uncertainties, this conclusion must be considered tentative at present. The 2.2 μm polarization angles and the emission-line filaments observed by the Hubble Space Telescope are both offset from the local radial direction by 10°-20°, providing evidence that the magnetic fields in Cas A are generated by Rayleigh-Taylor instabilities in the decelerating ejecta.
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