http://arxiv.org/abs/1401.7418
We have carried out a spectral analysis of the Suzaku X-ray data in the 0.4-12 keV range toward the shell-type very-high-energy {\gamma}-ray supernova remnant RX J1713.7-3946. The aims of this analysis are to estimate detailed X-rays spectral properties at a high angular resolution up to 2 arcmin, and to compare them with the interstellar matter. The X-ray spectrum is non-thermal and used to calculate absorbing column density, photon index, and absorption-corrected X-ray flux. The photon index varies significantly from 2.1 to 2.9. The hardest spectra are found in six positions at around 6-8 pc from the center, in two compact regions around dense molecular cloud cores as well as toward four extended diffuse regions with no molecular gas. We present an interpretation that diffusive shock acceleration with little turbulence realizes a high cut-off energy and the hardest spectra in the diffuse regions, where the shock speed is probably as high as ~6000 km s-1 and a gyro-factor is larger than 1. On the other hand, the turbulent fluid motion due to the shock-cloud interaction amplifies magnetic field around the dense cloud cores and decreases a gyro-factor close to the Bohme diffusion limit, leading to a high cut-off energy similar to the diffuse regions in spite of the shock deceleration. We suggest that the turbulent field may additionally accelerate the electrons in addition to the DSA in order to overcome the enhanced synchrotron loss due to the amplified field.
Thu, 30 Jan 14
14/59
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