黑洞x射线双星GRS 1915+105中的可变圆盘风?

A. Ratheesh, F. Tombesi, K. Fukumura, P. Soffitta, E. Costa, D. Kazanas
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引用次数: 4

摘要

GRS 1915+105是x射线中最亮的瞬态黑洞双星(BHB)之一,为研究BHB中吸积和弹射机制之间的联系提供了一个独特的试验台。特别是,这个源可以用来研究吸积盘风,以及它如何依赖于BHBs的状态变化。我们的目的是研究GRS 1915+105吸积盘风的起源和几何形状。我们利用钱德拉HETGS提供的高分辨率光谱分析了GRS 1915+105的软光谱$\phi$和硬光谱$\chi$。在软状态下,我们发现了一系列的风吸收线,它们遵循与电离有关的速度宽度、速度位移和等效宽度的非线性依赖关系,表明了多组分或分层流出。在硬态下,我们只发现微弱的铁XXVI吸收线。我们使用专用的MHD风模型对两种状态的吸收线进行建模,以研究风的磁源,并探讨两种状态之间观测到的线通量变化的原因。MHD圆盘风模型很好地适应了这两种状态,表明了风的磁性起源的可能性。风的多重电离成分被很好地表征为同一磁流出的分层。我们发现,观测到的线通量在软态和硬态之间的变化不能单独用光电离来解释,但它很可能是由于风密度的大(三个数量级)增加。我们发现风的质量流出率与吸积率相当,这表明吸积和抛射过程之间存在密切联系,导致bhb状态变化。
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A variable magnetic disc wind in the black hole X-ray binary GRS 1915+105?
GRS 1915+105 being one of the brightest transient black hole binary (BHB) in the X-rays, offers a unique test-bed for the study of the connection between accretion and ejection mechanisms in BHBs. In particular, this source can be used to study the accretion disc wind and how it depends on the state changes in BHBs. Our aim is to investigate the origin and geometry of the accretion disc wind in GRS 1915+105. We analysed the spectra of GRS 1915+105 in the soft $\phi$ and hard $\chi$ classes, using the high resolution spectroscopy offered by Chandra HETGS. In the soft state, we find a series of wind absorption lines that follow a non linear dependence of velocity width, velocity shift and equivalent width with respect to ionisation, indicating a multiple component or stratified outflow. In the hard state we find only a faint Fe XXVI absorption line. We model the absorption lines in both the states using a dedicated MHD wind model to investigate a magnetic origin of the wind and to probe the cause of variability in the observed lines flux between the two states. The MHD disc wind model provides a good fit for both states, indicating the possibility of a magnetic origin of the wind. The multiple ionisation components of the wind are well characterised as a stratification of the same magnetic outflow. We find that the observed variability in the lines flux between soft and hard states cannot be explained by photo-ionisation alone but it is most likely due to a large (three orders of magnitude) increase in the wind density. We find the mass outflow rate of the wind to be comparable to the accretion rate, suggesting a intimate link between accretion and ejection processes that lead to state changes in BHBs.
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