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Title:
The Kinematics of Kepler's Supernova Remnant as Revealed by Chandra
Authors:
Vink, Jacco
Affiliation:
AA(Astronomical Institute, Utrecht University, P.O. Box 80000, 3508TA Utrecht, Netherlands; .)
Publication:
The Astrophysical Journal, Volume 689, Issue 1, pp. 231-241. (ApJ Homepage)
Publication Date:
12/2008
Origin:
UCP
ApJ Keywords:
ISM: individual (Kepler's supernova), Shock Waves, ISM: Supernova Remnants, X-Rays: ISM
DOI:
10.1086/592375
Bibliographic Code:
2008ApJ...689..231V

Abstract

I have determined the expansion of the supernova remnant of SN 1604 (Kepler's supernova) based on archival Chandra ACIS-S observations made in 2000 and 2006. The measurements were done in several distinct energy bands, and were made for the remnant as a whole, and for six individual sectors. The average expansion parameter indicates that the remnant expands on average as r~t0.5, but there are significant differences in different parts of the remnant: the bright northwestern part expands as r~t0.35, whereas the rest of the remnant's expansion shows an expansion r~t0.6. The latter is consistent with an explosion in which the outer part of the ejecta has a negative power law slope for density (ρ~v-n) of n=7, or with an exponential density profile [ρ~exp(-v/ve)]. The expansion parameter in the southern region, in conjunction with the shock radius, indicates a rather low value (<5×1050 erg) for the explosion energy of SN 1604 for a distance of 4 kpc. A higher explosion energy is consistent with the results if the distance is larger. The filament in the eastern part of the remnant, which is dominated by X-ray synchrotron radiation, seems to mark a region with a fast shock speed r~t0.7, corresponding to a shock velocity of v=4200 km s-1, for a distance to SN 1604 of 4 kpc. This is consistent with the idea that X-ray synchrotron emission requires shock velocities in excess of ~2000 km s-1. The X-ray-based expansion measurements reported are consistent with results based on optical and radio measurements but disagree with previous X-ray measurements based on ROSAT and Einstein observations.
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