Tuesday, August 21, 2012

1208.4034 (Karl Isensee et al.)

Nucleosynthetic Layers in the Shocked Ejecta of Cassiopeia A    [PDF]

Karl Isensee, Greg Olmschenk, Lawrence Rudnick, Tracey DeLaney, Jeonghee Rho, J. D. Smith, William T. Reach, Takashi Kozasa, Haley Gomez
We present a 3-dimensional analysis of the supernova remnant Cassiopeia A using high resolution spectra from the Spitzer Space Telescope. We observe supernova ejecta both immediately before and during the shock-ejecta interaction. We determine that the reverse shock of the remnant is spherical to within 7%, although the center of this sphere is offset from the geometric center of the remnant by 810 km/s. We determine that the velocity width of the nucleosynthetic layers is approximately 1000 km/s over 4000 square arcsecond regions, although the velocity width of a layer along any individual line of sight is <250 km/s. Si and O, which come from different nucleosynthetic layers in the progenitor star, are observed to be coincident in velocity space in some directions, but segregated by up to approximately 500 km/s in other directions. We compare these observations of the nucleosynthetic layers to predictions from supernova explosion models in an attempt to constrain such models. Finally, we observe small-scale, corrugated velocity structures that are likely caused during the supernova explosion itself, rather than hundreds of years later by dynamical instabilities at the remnant's reverse shock.
View original: http://arxiv.org/abs/1208.4034

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