新星V2659 Cyg的光学和近红外高分辨率光谱观测:新星喷出物的结构和两种不同速度系统的起源

黄金时代 Pub Date : 2018-09-04 DOI:10.22323/1.315.0053
A. Arai, H. Kawakita, A. Raj, Byeong-Cheol Lee, G. Anupama, S. Kondo, Y. Ikeda, N. Kobayashi, S. Hamano, H. Sameshima, K. Fukue, N. Matsunaga, C. Yasui, Natsuko Izumi, M. Mizumoto, S. Otsubo, K. Takenaka, A. Watase, Takafumi Kawanishi, Kenshi Nakanishi, Tetsuya Nakaoka
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引用次数: 0

摘要

在经典新星早期衰退阶段的高分辨率光谱中,经常观察到两种不同的径向速度的吸收线系统。这些吸收线系统的起源仍在争论中。我们给出了新星V2659 Cyg的高分辨率光谱观测光谱,并讨论了在该新星早期衰退阶段观测到的吸收线系统的时间演化。观测到的吸收线剖面在较高速度(高速分量)下的时间演变可以定性地解释为团块喷射物和喷射物中电离锋随时间的运动。相反,低速成分可能起源于由快速新星风与缓慢膨胀的赤道聚焦密集喷射物碰撞所产生的激波压缩的冷区。我们还在光学和近红外波长区域展示了V2659 Cyg星云期的高分辨率光谱。在星云期探测到的发射谱线也显示出两个速度分量,这表明星云期喷出物的速度结构与早期衰退期相似。低速发射谱线的双角分布意味着低速物质呈环状分布。在早期衰退期和星云期的观测结果都支持新星爆炸时抛射物以不同的速度多次抛射。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optical and Near-infrared High-resolution Spectroscopic Observations of Nova V2659 Cyg: Structure of Nova Ejecta and Origin of Two-distinct Velocity Systems
Two distinct absorption-line systems distinguished by radial velocities have often been observed in the optical high-resolution spectra of classical novae during their early decline phase. The origin of these absorption-line systems is under debates. We present optical high-resolution spectroscopic observations spectra of nova V2659 Cyg and discuss about the temporal evolution of those absorption-line systems observed in this nova during its early decline phase. The observed temporal evolution of absorption-line profiles with relatively higher velocities (the high-velocity component) can be explained qualitatively by the clumpy ejecta and movement of the ionization fronts in the ejecta with time. Conversely, the low-velocity component may originate in the cool region compressed by the shock caused by collision between the fast nova wind and the slow expanding, equatorially focused dense ejecta. We also present high-resolution spectra of V2659 Cyg during its nebular phase in optical and near-infrared wavelength regions. Emission lines detected during the nebular phase also showed two velocity components, suggesting that the velocity structure of the ejecta during the nebular phase is similar to that during the early decline phase. The double-horned profiles of emission lines with low velocities imply a ring-like distribution of materials with lower velocities. The observations during both the early-decline phase and the nebular phase support the multiple ejection of ejecta at a nova explosion, with different velocities.
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