Investigating the consistency of the shape and flux of X-ray reflection spectra in the hard state with an accretion disk reaching close to the black hole

IF 5.4 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
Sudeb Ranjan Datta, Michal Dovčiak, Michal Bursa, Wenda Zhang, Jiří Horák, Vladimír Karas
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Abstract

Context. The observed spectra from black hole (BH) X-ray binaries (XRBs) typically consist of two primary components. A multitemperature blackbody originating from the accretion disk in the soft X-ray, and a power law-like component in the hard X-ray, due to the Comptonization of soft photons by the hot corona. The illumination of the disk by the corona gives rise to another key component known as reflection. A fraction of the incident hard X-ray radiation is naturally absorbed and re-emitted as a blackbody at lower energies and referred to as the “reprocessed blackbody”.Aims. For densities relevant to XRBs and typical ionization values, the reprocessed blackbody may become significant in the soft X-ray region (approximately 0.1–1.0 keV) and should be noticeable in the observed spectra as a consequence of reflection. The absence of any blackbody component in the low/hard state of a BH XRB may not be consistent with the reflection of highly irradiating flux, observed as a power law from an appropriately dense disk of XRB.Methods. We focus on the low/hard state of the BH XRB MAXI J1820+070. In contrast to previous works, we simultaneously fit the shape and flux of the reflection spectra. This allowed us to estimate the correct density and ionization of the slab as well as the corresponding reprocessed blackbody.Results. Our fitting of the representative observation of the BH XRB low/hard state suggests that the disk may, in principle, extend very close to the BH, even though the reprocessed thermal emission (due to disk illumination) remains cold (and thus low) enough to be consistent with the data in contrast to the results of a previous study. The inner reflection component is highly ionized and its fit is primarily driven by its contribution to the continuum, rather than by the shape of the relativistic iron line.Conclusions. The reprocessed blackbody cannot help determine whether the disk extends close to the BH or not in the hard state. For this specific observation, the flux in inner reflection component turns out to be quite low with respect to the outer reflection or power law. The outflowing slab corona covering the inner region of the disk could be the plausible geometry of the source, with the underlying disk approaching near to the BH.
研究吸积盘到达黑洞附近的硬态 X 射线反射光谱的形状和通量的一致性
背景从黑洞(BH)X射线双星(XRB)观测到的光谱通常由两个主要部分组成。在软 X 射线中,是源自吸积盘的多温黑体;在硬 X 射线中,是由于热日冕对软光子的康普顿化作用而产生的幂律成分。日冕对吸积盘的照射产生了另一个称为反射的关键成分。入射硬 X 射线辐射的一部分会被自然吸收,并以较低能量的黑体形式重新发射,被称为 "再处理黑体"。对于与 XRB 有关的密度和典型电离值,后处理黑体在软 X 射线区域(约 0.1-1.0 千伏)可能会变得很重要,并且由于反射的结果,在观测光谱中应该很明显。在 BH XRB 的低/硬态中没有任何黑体成分可能与高辐照通量的反射不一致,从 XRB 的适当致密盘中观测到的是幂律。我们重点研究了BH XRB MAXI J1820+070的低/硬状态。与之前的研究不同,我们同时拟合了反射光谱的形状和通量。这使我们能够估算出板坯的正确密度和电离度,以及相应的后处理黑体。我们对 BH XRB 低/硬态代表性观测结果的拟合表明,尽管再处理的热辐射(由于磁盘照明)仍然足够冷(因此也足够低),但原则上磁盘可能会延伸到非常靠近 BH 的地方,这与之前的研究结果是一致的。内部反射成分高度电离,其拟合主要受其对连续面的贡献而非相对论铁线形状的影响。经过再处理的黑体无法帮助确定圆盘是否在硬态下靠近 BH。在这一特定观测中,相对于外部反射或幂律,内部反射部分的通量相当低。覆盖圆盘内部区域的外流板状日冕可能是源的合理几何形状,其下的圆盘接近 BH。
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来源期刊
Astronomy & Astrophysics
Astronomy & Astrophysics 地学天文-天文与天体物理
CiteScore
10.20
自引率
27.70%
发文量
2105
审稿时长
1-2 weeks
期刊介绍: Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.
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