AstroSat soft X-ray observations of the symbiotic recurrent nova V3890 Sgr during its 2019 outburst

K. Singh, V. Girish, M. Pavana, M. Pavana, J. Ness, G. Anupama, M. Orio, M. Orio
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引用次数: 5

Abstract

Two long AstroSat Soft X-ray Telescope observations were taken of the third recorded outburst of the Symbiotic Recurrent Nova, V3890 Sgr. The first observing run, 8.1-9.9 days after the outburst, initially showed a stable intensity level with a hard X-ray spectrum that we attribute to shocks between the nova ejecta and the pre-existing stellar companion. On day 8.57, the first, weak, signs appeared of Super Soft Source (SSS) emission powered by residual burning on the surface of the White Dwarf. The SSS emission was observed to be highly variable on time scales of hours. After day 8.9, the SSS component was more stable and brighter. In the second observing run, on days 15.9-19.6 after the outburst, the SSS component was even brighter but still highly variable. The SSS emission was observed to fade significantly during days 16.8-17.8 followed by re-brightening. Meanwhile the shock component was stable leading to increase in hardness ratio during the period of fading. AstroSat and XMM-Newton observations have been used to study the spectral properties of V3890 Sgr to draw quantitative conclusions even if their drawback is model-dependence. We used the xspec to fit spectral models of plasma emission, and the best fits are consistent with the elemental abundances being lower during the second observing run compared to the first for spectra >1 keV. The SSS emission is well fit by non-local thermal equilibrium model atmosphere used for white dwarfs. The resulting spectral parameters, however, are subject to systematic uncertainties such as completeness of atomic data.
AstroSat在2019年爆发期间对共生复发新星V3890 Sgr的软x射线观测
AstroSat软x射线望远镜对共生循环新星V3890 Sgr的第三次爆发进行了两次长时间的观测。第一次观测是在爆发后的8.1-9.9天,通过硬x射线光谱,我们初步发现了一个稳定的强度水平,我们将其归因于新星喷出物与先前存在的恒星伴星之间的冲击。在第8.57天,第一个微弱的迹象出现了超级软源(SSS)发射,这是由白矮星表面残余燃烧提供动力的。观测到SSS的排放在小时的时间尺度上变化很大。在第8.9天之后,SSS成分更加稳定和明亮。在第二次观测中,在爆发后的15.9-19.6天,SSS成分更加明亮,但仍然变化很大。在16.8-17.8天,SSS发射明显减弱,随后再次变亮。同时,冲击成分稳定,导致褪色期间硬度比增加。AstroSat和XMM-Newton观测数据已被用于研究Sgr V3890的光谱特性,以得出定量结论,尽管它们的缺点是依赖于模型。我们使用xspec拟合等离子体发射的光谱模型,结果表明,对于>1 keV的光谱,第二次观测时元素丰度比第一次观测时低。用白矮星大气非局域热平衡模型对SSS辐射进行了较好的拟合。然而,得到的光谱参数受制于系统的不确定性,如原子数据的完整性。
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