X-ray view of emission lines in optical spectra: Spectral analysis of the two low-mass X-ray binary systems Swift J1357.2-0933 and MAXI J1305-704

arXiv - PHYS - High Energy Astrophysical Phenomena Pub Date : 2024-09-18 DOI:arxiv-2409.11988

A. Anitra, C. Miceli, T. Di Salvo, R. Iaria, N. Degenaar, M. Jon Miller, F. Barra, W. Leone, L. Burderi

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Abstract

We propose a novel approach for determining the orbital inclination of low-mass X-ray binary systems by modelling the H$\alpha$ and H$\beta$ line profiles emitted by the accretion disc, with a Newtonian version of diskline. We applied the model to two sample sources, Swift J1357.2-0933 and MAXI J1305-704, which are both transient black hole systems, and analyse two observations that were collected during a quiescent state and one observation of an outburst. The line profile is well described by the diskline model, although we had to add a Gaussian line to describe the deep inner core of the double-peaked profile, which the diskline model was unable to reproduce. The H$\beta$ emission lines in the spectrum of Swift J1357.2-0933 and the H$\alpha$ emission lines in that of MAXI J1305-704 during the quiescent state are consistent with a scenario in which these lines originate from a disc ring between $(9.6-57) \times 10^{3}, \rm{R_{g}}$ and $(1.94-20) \times 10^{4}, \rm{R_{g}}$, respectively. We estimate an inclination angle of $81 \pm 5$ degrees for Swift J1357.2-0933 and an angle of $73 \pm 4$ degrees for MAXI J1305-704. This is entirely consistent with the values reported in the literature. In agreement with the recent literature, our analysis of the outburst spectrum of MAXI J1305-704 revealed that the radius of the emission region deviates from expected values. This outcome implies several potential scenarios, including alternative disc configuration or even a circumbinary disc. We caution that these results were derived from a simplistic model that may not fully describe the complicated physics of accretion discs. Despite these limitations, our results for the inclination angles are remarkably consistent with recent complementary studies, and the proposed description of the emitting region remains entirely plausible.

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光学光谱中发射线的 X 射线视图：两个低质量 X 射线双星系统 Swift J1357.2-0933 和 MAXI J1305-704 的光谱分析

我们将该模型应用于两个样本源：Swift J1357.2-0933和MAXIJ1305-704，它们都是瞬态黑洞系统，并分析了两次静态观测和一次爆发观测。尽管我们不得不添加一条高斯线来描述双峰轮廓的深内核，而盘线模型却无法再现这一轮廓，但盘线模型很好地描述了线轮廓。Swift J1357.2-0933光谱中的H$\beta$发射线和MAXI J1305-704静态光谱中的H$\alpha$发射线都符合这样一种假设，即这些发射线起源于一个环绕在$(9.6-57) \times 10^{3}, \rm{R_{g}}$和 $(1.94-20) \times 10^{4}, \rm{R_{g}}$之间。我们估计 Swift J1357.2-0933 的倾角为 81 （pm 5）度，MAXIJ1305-704 的倾角为 73 （pm 4）度。这与文献报道的数值完全一致。与最近的文献一致，我们对MAXI J1305-704爆发光谱的分析表明，发射区的半径偏离了预期值。这一结果意味着几种可能的情况，包括另一种圆盘构造，甚至是环形圆盘。我们要提醒的是，这些结果是由一个简单的模型得出的，它可能无法完全描述吸积盘的复杂物理现象。尽管存在这些局限性，我们对倾角的研究结果与最近的补充研究结果非常一致，对发射区的描述仍然是完全可信的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - High Energy Astrophysical Phenomena

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