利用 AstroSat 对 NGC 4151 进行的多波段 UV $-$ X 射线光谱研究

Shrabani Kumar, G. C. Dewangan, P. Gandhi, I. E. Papadakis, N. P. S. Mithun, K. P. Singh, D. Bhattacharya, A. A. Zdziarski, G. C. Stewart, S. Bhattacharyya, S. Chandra
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摘要

我们基于2017-2018年期间AstroSat在近紫外波段(NUV)到硬X射线波段(0.005-80keV)的五个同步观测,对NGC 4151进行了多波长光谱研究。在校正了内部和银河系的消光、宽窄线区的贡献以及宿主星系的发射之后,我们得出了本征的星盘连续波。我们发现在较亮的紫外通量下有一个较蓝的连续波,这可能是由于吸积盘连续波或紫外红化的变化造成的。我们利用2000年3月获得的高分辨率HST/STIS光谱估算了其内在红度,$E(B-V) \sim 0.4$。我们利用热康普顿化、中性和电离吸收以及X射线反射来模拟X射线光谱。我们得到的 X 射线吸收中性柱在 $N_H \sim 1.2-3.4\times 10^{23} cm^{-2}$ 之间变化,比假设银河系尘气比的紫外消光估计值大 $\sim 100$。为了调和这一差异,我们提出了两种可信的遮挡器构型:(a)由无尘区和多尘区组成的两区遮挡器,以升华半径划分;或者(b)由嵌入低密度介质中的团块状高密度云组成的两相遮挡器,其结果是少数高密度云极大地遮挡了紧凑的X射线源,而来自扩展吸积盘的大部分紫外辐射则穿过低密度介质。此外,我们还发现 X 射线吸收柱与 $NUV-FUV$ 颜色和紫外通量之间存在正相关,这表明风的增强可能是由 "越蓝越亮 "的紫外连续波驱动的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-epoch UV $-$ X-ray spectral study of NGC 4151 with AstroSat
We present a multi-wavelength spectral study of NGC 4151 based on five epochs of simultaneous AstroSat observations in the near ultra-violet (NUV) to hard X-ray band ($\sim 0.005-80$ keV) during $2017 - 2018$. We derived the intrinsic accretion disk continuum after correcting for internal and Galactic extinction, contributions from broad and narrow line regions, and emission from the host galaxy. We found a bluer continuum at brighter UV flux possibly due to variations in the accretion disk continuum or the UV reddening. We estimated the intrinsic reddening, $E(B-V) \sim 0.4$, using high-resolution HST/STIS spectrum acquired in March 2000. We used thermal Comptonization, neutral and ionized absorption, and X-ray reflection to model the X-ray spectra. We obtained the X-ray absorbing neutral column varying between $N_H \sim 1.2-3.4 \times 10^{23} cm^{-2}$, which are $\sim 100$ times larger than that estimated from UV extinction, assuming the Galactic dust-to-gas ratio. To reconcile this discrepancy, we propose two plausible configurations of the obscurer: (a) a two-zone obscurer consisting of dust-free and dusty regions, divided by the sublimation radius, or (b) a two-phase obscurer consisting of clumpy, dense clouds embedded in a low-density medium, resulting in a scenario where a few dense clouds obscure the compact X-ray source substantially, while the bulk of UV emission arising from the extended accretion disk passes through the low-density medium. Furthermore, we find a positive correlation between X-ray absorption column and $NUV-FUV$ color and UV flux, indicative of enhanced winds possibly driven by the 'bluer-when-brighter' UV continuum.
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