揭示明亮裸活动星系核 ESO 141-G55 的燃烧和柔软心脏:X 射线宽带和 SED 分析

D. Porquet, J. Reeves, S. Hagen, A. Lobban, V. Braito, N. Grosso, F. Marin
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引用次数: 0

摘要

ESO 141-G55是一个邻近的X射线明亮宽线Seyfert/,1(BLS1),由于其视线沿线缺乏暖吸收而被归类为裸活动星系核(AGN),从而为观察其盘日冕系统提供了一个畅通无阻的视角。我们的目标是利用 2022 年 10 月 1-2 日首次同时进行的 XMM-Newton 和 NuSTAR 观测来探测它的盘冠系统。我们进行了X射线宽带光谱分析,以确定起作用的主要过程,并进行了光谱能量分布(SED)分析,以确定盘冕特性。ESO,141-G55的同步宽带X射线光谱的特点是存在一个突出的平滑软X射线过量、一条宽阔的Fe\,Kalpha发射线和一个明显的康普顿驼峰。高分辨率反射光栅分光计光谱证实,在AGN静止框架内,沿我们的视线缺乏内在的暖吸收气体,这验证了它仍然处于裸露状态。然而,我们观测到了软 X 射线发射线,这表明在我们的视线之外存在大量的暖气体。圆盘-日冕系统的中间倾角(sim circ $)可能为我们观测圆盘的超高速外流提供了有利条件,但在 2022 年的这次观测中没有发现任何外流,这与 2007 年 XMM-Newton 的观测结果相反。根据X射线宽带分析,我们排除了仅在标准圆盘上进行相对论反射的可能性,而由暖热日冕产生的软硬康普顿化(relagn)加上相对论反射(reflkerrd)的组合则很好地再现了ESO,141-G55的SED。热日冕温度非常高,达到了140\,keV,远高于约80个AGN,而暖日冕温度(sim 0.3\,keV)与其他亚爱丁顿AGN中发现的值相似。ESO,141-G55正在以中等埃丁顿吸积率(sim 10--20)进行吸积。我们的分析表明,在ESO,141-G55的软X射线和紫外辐射中,光学上很厚的暖日冕做出了重要贡献,这为越来越多的证据表明AGN的增殖(即使是中等增殖速率)似乎偏离了标准圆盘理论提供了依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Revealing the burning and soft heart of the bright bare active galactic nucleus ESO 141-G55: X-ray broadband and SED analysis
ESO 141-G55 is a nearby X-ray bright broad-line Seyfert\,1 (BLS1) that has been classified as a bare active galactic nucleus (AGN) due to a lack of warm absorption along its line of sight, providing an unhampered view into its disc-corona system. We aim to probe its disc-corona system thanks to the first simultaneous XMM-Newton and NuSTAR observation obtained October 1--2, 2022. We carried out an X-ray broadband spectral analysis to determine the dominant process(es) at work as well as a spectral energy distribution (SED) analysis to determine the disc-corona properties. The simultaneous broadband X-ray spectrum of ESO\,141-G55 is characterised by the presence of a prominent smooth soft X-ray excess, a broad Fe\,Kalpha emission line, and a significant Compton hump. The high-resolution reflection grating spectrometer spectra confirmed the lack of intrinsic warm-absorbing gas along our line of sight in the AGN rest frame, verifying that it is still in a bare state. However, soft X-ray emission lines were observed, indicating substantial warm gas out of our line of sight. The intermediate inclination of the disc-corona system (sim circ $) may offer us a favourable configuration to observe ultra-fast outflows from the disc, but none were found in this 2022 observation, contrary to a previous 2007 XMM-Newton one. We ruled out relativistic reflection alone on a standard disc based on the X-ray broadband analysis, while a combination of soft and hard Comptonisation by a warm and hot corona ( relagn ) plus relativistic reflection ( reflkerrd ) reproduces the ESO\,141-G55 SED quite well. The hot corona temperature is very hot, sim 140\,keV, and much higher than about 80 of AGNs, whereas the warm corona temperature, sim 0.3\,keV, is similar to the values found in other sub-Eddington AGNs. ESO\,141-G55 is accreting at a moderate Eddington accretion rate (sim 10--20). Our analysis points to a significant contribution of an optically thick warm corona to both the soft X-ray and UV emission in ESO\,141-G55, adding to the growing evidence that the accretion of AGNs (even at a moderate accretion rate) appears to deviate from standard disc theory.
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