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Clues To The Nature of SN 2009ip from Photometric and Spectroscopic Evolution to Late Times

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arxiv 1402.1765 v1 pith:EUEJA35P submitted 2014-02-07 astro-ph.HE astro-ph.SR

Clues To The Nature of SN 2009ip from Photometric and Spectroscopic Evolution to Late Times

classification astro-ph.HE astro-ph.SR
keywords latetimephotometricevolutionimpostorsobservatorysimilarspectroscopic
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We present time series photometric and spectroscopic data for the transient SN 2009ip from the start of its outburst in September 2012 until November 2013. This data was collected primarily with the new robotic capabilities of the Las Cumbres Observatory Global Telescope Network, a specialized facility for time domain astrophysics, and includes supporting high-resolution spectroscopy from the Southern Astrophysical Research Telescope, Kitt Peak National Observatory, and Gemini Observatory. Based on our nightly photometric monitoring, we interpret the strength and timing of fluctuations in the light curve as interactions between fast-moving ejecta and an inhomogeneous CSM produced by past eruptions of this massive luminous blue variable (LBV) star. Our time series of spectroscopy in 2012 reveals that, as the continuum and narrow H-alpha flux from CSM interactions declines, the broad component of H-alpha persists with SN-like velocities that are not typically seen in LBVs or SN Impostor events. At late times we find that SN 2009ip continues to decline slowly, at <0.01 magnitudes per day, with small fluctuations in slope similar to Type IIn supernovae (SNe IIn) or SN impostors, but no further LBV-like activity. The late time spectrum features broad calcium lines similar to both late time SNe and SN Impostors. In general, we find that the photometric and spectroscopic evolution of SN 2009ip is more similar to SNe IIn than either continued eruptions of an LBV star or SN Impostors. In this context, we discuss the implications for episodic mass loss during the late stages of massive star evolution.

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