A Review of the Evolution of Classical Nova V2676 Oph: Formation of Molecules and Dust Grains

黄金时代 Pub Date : 2018-08-24 DOI:10.22323/1.315.0064
H. Kawakita, A. Arai
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引用次数: 1

Abstract

Nova V2676 Oph is the first classical nova in which C2 has been detected during its early phase near the visual-brightness maximum in addition to CN. The presence of C2 and CN in the nova indicates that its atmosphere was enriched in carbon with C/O > 1. Furthermore, molecule formation in the early phase is likely to be associated with the dust formation that started ∼90 days after the discovery. We have obtained isotopic ratios of carbon and nitrogen for this nova, and they are consistent with model predictions. Based on the lightcurves and optical spectra of the nova, the inferred mass of the white-dwarf component of V2676 Oph is relatively small (∼0.6M⊙). The absence of strong [Ne II] emission at 12.8 μm and the relatively small ejected mass from V2676 Oph support this hypothesis. However, the mass of the white-dwarf component should be higher (>∼1.0M⊙) according to the observed isotopic ratios and theoretical predictions based on thermonuclear runaways.
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经典新星V2676 Oph演化的回顾:分子和尘埃颗粒的形成
新星V2676蛇夫星是除了CN星外,第一个在早期阶段在最大视亮度附近发现C2星的经典新星。新星中C2和CN的存在表明其大气中富含碳,C/O > 1。此外,早期的分子形成可能与发现后约90天开始的尘埃形成有关。我们已经获得了这颗新星的碳和氮的同位素比率,它们与模型预测一致。根据新星的光曲线和光谱,推断出蛇夫座V2676白矮星成分的质量相对较小(~ 0.6M⊙)。在12.8 μm处没有强烈的[Ne II]发射,V2676 Oph的喷射质量相对较小,支持了这一假设。然而,根据观察到的同位素比率和基于热核失控的理论预测,白矮星成分的质量应该更高(> ~ 1.0M⊙)。
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