R. Dastidar, K. Misra, S. Valenti, D. J. Sand, A. Pastorello, A. Reguitti, G. Pignata, S. Benetti, S. Bose, A. Gangopadhyay, M. Singh, L. Tomasella, J. E. Andrews, I. Arcavi, C. Ashall, C. Bilinski, K. A. Bostroem, D. A. H. Buckley, G. Cannizzaro, L. Chomiuk, E. Congiu, S. Dong, Y. Dong, N. Elias-Rosa, M. Fraser, C. Gall, M. Gromadzki, D. Hiramatsu, G. Hosseinzadeh, D. A. Howell, E. Y. Hsiao, C. McCully, N. Smith, J. Strader
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引用次数: 0
摘要
我们对 IIP 型超新星(SN)2018is 进行了全面的光度和光谱研究。爆炸后50天的V波段光度和膨胀速度分别为-15.1 ± 0.2 mag(AV校正后=1.34 mag)和1400 km s-1,将其归类为低光度SN II。与其他大多数低亮度 SNe II 相比,它在 V 波段的重组阶段持续时间较短,约为 110 天,而且衰减幅度较大(每 100 天 1.0 个品位)。此外,其光学和近红外光谱显示的氢发射线非常窄,即使对于该类星云来说也是如此。Fe II和Sc II线速度处于低亮度SNE II典型范围的下限。对测光曲线的半分析建模表明,喷射物质量为∼8 M⊙,相当于超新星前的质量∼9.5 M⊙,爆炸能量为∼0.40 × 1051 erg。流体力学模型进一步表明,原生星的零年龄主序质量为 9 M⊙,爆炸能量低至 0.19 × 1051 erg。星云光谱显示出微弱的[O I] λλ6300,6364 线,这与中等质量的祖星一致,而铁核塌缩事件的典型特征,如 He I、[C I] 和 Fe I,则无法辨别。然而,较红的颜色和较低的镍铁丰度比也不支持电子捕获的设想。作为一个低亮度的SN II,SN 2018is在光球阶段具有非典型的陡峭衰退和非常窄的发射线,它为这一族群中观测到的多样性做出了贡献。
SN 2018is: A low-luminosity Type IIP supernova with narrow hydrogen emission lines at early phases
We present a comprehensive photometric and spectroscopic study of the Type IIP supernova (SN) 2018is. The V band luminosity and the expansion velocity at 50 days post-explosion are −15.1 ± 0.2 mag (corrected for AV = 1.34 mag) and 1400 km s−1, classifying it as a low-luminosity SN II. The recombination phase in the V band is shorter, lasting around 110 days, and exhibits a steeper decline (1.0 mag per 100 days) compared to most other low-luminosity SNe II. Additionally, the optical and near-infrared spectra display hydrogen emission lines that are strikingly narrow, even for this class. The Fe II and Sc II line velocities are at the lower end of the typical range for low-luminosity SNe II. Semi-analytical modelling of the bolometric light curve suggests an ejecta mass of ∼8 M⊙, corresponding to a pre-supernova mass of ∼9.5 M⊙, and an explosion energy of ∼0.40 × 1051 erg. Hydrodynamical modelling further indicates that the progenitor had a zero-age main sequence mass of 9 M⊙, coupled with a low explosion energy of 0.19 × 1051 erg. The nebular spectrum reveals weak [O I] λλ6300,6364 lines, consistent with a moderate-mass progenitor, while features typical of Fe core-collapse events, such as He I, [C I], and Fe I, are indiscernible. However, the redder colours and low ratio of Ni to Fe abundance do not support an electron-capture scenario either. As a low-luminosity SN II with an atypically steep decline during the photospheric phase and remarkably narrow emission lines, SN 2018is contributes to the diversity observed within this population.
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Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.
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