极度贫金属的SN 2023ufx:高红移II型超新星的本地类似物

Michael A. Tucker, Jason Hinkle, Charlotte R. Angus, Katie Auchettl, Willem B. Hoogendam, Benjamin Shappee, Christopher S. Kochanek, Chris Ashall, Thomas de Boer, Kenneth C. Chambers, Dhvanil D. Desai, Aaron Do, Michael D. Fulton, Hua Gao, Joanna Herman, Mark Huber, Chris Lidman, Chien-Cheng Lin, Thomas B. Lowe, Eugene A. Magnier, Bailey Martin, Paloma Mínguez, Matt Nicholl, Miika Pursiainen, S. J. Smartt, Ken W. Smith, Shubham Srivastav, Brad E. Tucker and Richard J. Wainscoat
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摘要

我们展示了对II型超新星(SN II)SN 2023ufx的广泛观测,它可能是迄今为止观测到的最贫金属的SN II。它在一个低金属性(Zhost ∼ 0.1 Z⊙)矮星系(Mg = -13.39 ± 0.16 mag, rproj ∼ 1 kpc)的外围爆炸。爆炸亮度很高,在 Mg ≈ -18.5 等时达到峰值,并显示出快速的演化。r波段(假测光)光曲线有一个持续20(17)天的震荡冷却阶段,随后是19(23)天的高原阶段。整个光厚阶段在爆炸后只持续了≈55天,这表明红超巨星祖星在爆炸前的H包层很薄。在震荡冷却阶段获得的早期光谱没有显示窄发射特征,并将爆炸前的质量损失率限制在 M⊙ yr-1。光球阶段的光谱没有明显的金属吸收特征,表明原生星的金属度为≲0.1 Z⊙。半球状(∼60-130 天)光谱显示出微弱的 Fe ii,但在这些阶段通常观测到的其他金属物种(Ti ii、Sc ii 和 Ba ii)却明显缺乏。晚期的光学和近红外光谱还显示出宽阔的(≈104 km s-1)双峰 Hα、Pβ和 Pγ 发射曲线,表明在爆炸过程中出现了快速外流。外流通常是由快速旋转的原生体引起的,而原生体也喜欢贫金属环境。这只是第二个具有≲0.1 Z⊙的SNe II,两者都表现出奇特的演化,表明相当一部分贫金属的SNe II与附近富金属的SNe II相比具有独特的性质。这些观测结果为模拟早期宇宙中的贫金属SNe II奠定了基础。
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The Extremely Metal-poor SN 2023ufx: A Local Analog to High-redshift Type II Supernovae
We present extensive observations of the Type II supernova (SN II) SN 2023ufx, which is likely the most metal-poor SN II observed to date. It exploded in the outskirts of a low-metallicity (Zhost ∼ 0.1 Z⊙) dwarf (Mg = −13.39 ± 0.16 mag, rproj ∼ 1 kpc) galaxy. The explosion is luminous, peaking at Mg ≈ −18.5 mag, and shows rapid evolution. The r-band (pseudobolometric) light curve has a shock-cooling phase lasting 20 (17) days followed by a 19 (23) day plateau. The entire optically thick phase lasts only ≈55 days following explosion, indicating that the red supergiant progenitor had a thinned H envelope prior to explosion. The early spectra obtained during the shock-cooling phase show no evidence for narrow emission features and limit the preexplosion mass-loss rate to M⊙ yr−1. The photospheric-phase spectra are devoid of prominent metal absorption features, indicating a progenitor metallicity of ≲0.1 Z⊙. The seminebular (∼60–130 days) spectra reveal weak Fe ii, but other metal species typically observed at these phases (Ti ii, Sc ii, and Ba ii) are conspicuously absent. The late-phase optical and near-infrared spectra also reveal broad (≈104 km s−1) double-peaked Hα, Pβ, and Pγ emission profiles suggestive of a fast outflow launched during the explosion. Outflows are typically attributed to rapidly rotating progenitors, which also prefer metal-poor environments. This is only the second SN II with ≲0.1 Z⊙ and both exhibit peculiar evolution, suggesting a sizable fraction of metal-poor SNe II have distinct properties compared to nearby metal-enriched SNe II. These observations lay the groundwork for modeling the metal-poor SNe II expected in the early Universe.
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