We present optical photometry and spectroscopy of SN 2005ip for the first 3 yr after discovery, showing an underlying Type II-L supernova (SN) interacting with a steady wind to yield an unusual Type IIn spectrum. For the first ~160 days, it had a fast linear decline from a modest peak absolute magnitude of about –17.4 (unfiltered), followed by a plateau at roughly –14.8 for more than 2 yr. Initially having a normal broad-lined spectrum superposed with sparse narrow lines from the photoionized circumstellar medium (CSM), it quickly developed signs of strong CSM interaction with a spectrum similar to that of SN 1988Z. As the underlying SN II-L faded, SN 2005ip exhibited a rich high-ionization spectrum with a dense forest of narrow coronal lines, unprecedented among SNe but reminiscent of some active galactic nuclei. The line-profile evolution of SN 2005ip confirms that dust formation caused its recently reported infrared excess, but these lines reveal that it is the first SN to show clear evidence for dust in both the fast SN ejecta and the slower postshock gas. SN 2005ip's complex spectrum confirms the origin of the strange blue continuum in SN 2006jc, which also had postshock dust formation. We suggest that SN 2005ip's late-time plateau and coronal spectrum result from rejuvenated CSM interaction between a sustained fast shock and a clumpy stellar wind, where X-rays escape through the optically thin interclump regions to heat the preshock CSM to coronal temperatures.
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机译:我们在发现后的第一个3年内提出了SN 2005ip的光学光度法和光谱学,显示了潜在的II-L型超新星(SN)与稳定的风相互作用产生不寻常的IIn型光谱。在开始的约160天中,它从大约–17.4的适中峰值绝对值(未过滤)开始快速线性下降,然后在大约–14.8的平稳期超过2年。最初,它具有正常的宽谱线光谱与来自光电离周星介质(CSM)的稀疏细线重叠,然后迅速形成了与SN 1988Z相似的强CSM相互作用的迹象。随着基本SN II-L的衰落,SN 2005ip呈现出丰富的高电离光谱以及密集的冠状线狭窄的森林,这在SNe中是空前的,但让人联想到一些活跃的银河核。 SN 2005ip的线廓演变证实了粉尘的形成引起了其最近报道的红外过量,但是这些线表明,它是第一个对快速SN喷射和较慢的震后气体都显示出明显证据的SN。 SN 2005ip的复杂光谱证实了SN 2006jc中奇怪的蓝色连续体的起源,该连续体也具有震后尘埃形成。我们建议SN 2005ip的后期平稳期和日冕光谱是由于持续的快速震荡和块状恒星风之间重新焕发活力的CSM相互作用而产生的,其中X射线通过光学上较薄的丛集区域逸出,将震前的CSM加热到日冕温度。
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