Asymmetric Ejecta Distribution in SN 1006
Hiroyuki Uchida, Hiroya Yamaguchi, Katsuji Koyama
TL;DR
Deep X-ray observations of SN 1006 reveal asymmetric distribution of ejecta elements, supporting an asymmetric explosion origin consistent with recent Type Ia supernova models.
Contribution
This study provides detailed spatial analysis of ejecta distribution in SN 1006, highlighting asymmetries in heavy elements and supporting asymmetric explosion models.
Findings
Asymmetric distribution of Si, S, and Ar in the remnant.
Ejecta velocity asymmetry estimated at ~3100 km/s.
Higher Fe abundance observed in the southeast region.
Abstract
We present the results from deep X-ray observations (~400 ks in total) of SN 1006 by the X-ray astronomy satellite Suzaku. The thermal spectrum from the entire supernova remnant (SNR) exhibits prominent emission lines of O, Ne, Mg, Si, S, Ar, Ca, and Fe. The observed abundance pattern in the ejecta components is in good agreement with that predicted by a standard model of Type Ia supernovae (SNe). The spatially resolved analysis reveals that the distribution of the O-burning and incomplete Si-burning products (Si, S, and Ar) is asymmetric, while that of the C-burning products (O, Ne, and Mg) is relatively uniform in the SNR interior. The peak position of the former is clearly shifted by 5' (~3.2 pc at a distance of 2.2 kpc) to the southeast from the SNR's geometric center. Using the SNR age of ~1000 yr, we constrain the velocity asymmetry (in projection) of ejecta to be ~3100 km/s. The…
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