Three-Dimensional Explosion Geometry of Stripped-Envelope Core-Collapse Supernovae. I. Spectropolarimetric Observations

We study the multi-dimensional geometry of supernova (SN) explosions by means of spectropolarimetric observations of stripped-envelope SNe, i.e., SNe without a H-rich layer. We perform spectropolarimetric observations of 2 stripped-envelope SNe, the Type Ib SN 2009jf and the Type Ic SN 2009mi. Both...

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Bibliographic Details
Published in:arXiv.org 2012-05
Main Authors: Tanaka, Masaomi, Kawabata, Koji S, Hattori, Takashi, Mazzali, Paolo A, Aoki, Kentaro, Iye, Masanori, Maeda, Keiichi, Nomoto, Ken'ichi, Pian, Elena, Sasaki, Toshiyuki, Yamanaka, Masayuki
Format: Article
Language:English
Subjects:
Collapse
Ejecta
Explosions
Geometry
Ion distribution
Polarization
Supernovae
Online Access:Get full text
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Summary:We study the multi-dimensional geometry of supernova (SN) explosions by means of spectropolarimetric observations of stripped-envelope SNe, i.e., SNe without a H-rich layer. We perform spectropolarimetric observations of 2 stripped-envelope SNe, the Type Ib SN 2009jf and the Type Ic SN 2009mi. Both objects show non-zero polarization at the wavelength of the strong lines. They also show a loop in the Stokes Q-U diagram, which indicates a non-axisymmetric, three-dimensional ion distribution in the ejecta. We show that five out of six stripped-envelope SNe which have been observed spectropolarimetrically so far show such a loop. This implies that a three-dimensional geometry is common in stripped-envelope SNe. We find that stronger lines tend to show higher polarization. This effect is not related to the geometry, and must be corrected to compare the polarization of different lines or different objects. Even after the correction, however, there remains a dispersion of polarization degree among different objects. Such a dispersion might be caused by three-dimensional clumpy ion distributions viewed from different directions.
ISSN:2331-8422
DOI:10.48550/arxiv.1205.4111