C. Fian, J. A. Munoz, J. Jim'enez-Vicente, E. Mediavilla, D. Chelouche, S. Kaspi, R. For'es-Toribio
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引用次数: 0
摘要
我们的目的是通过研究引力透镜类星体 SDSS J1339+1310 中存在的不同微透镜特征,揭示该系统中连续波和宽发射线(BEL)发射区的结构。我们的研究包括对十年(2009--2019 年)的光度监测数据和 2007 至 2017 年间获得的七次光谱观测数据的综合分析。这项工作的重点是图像 A 和 B 之间 BEL 曲线的明显变形,以及它们相邻连续面的色度变化和在 $r$ 波段光曲线上观测到的惊人的微透镜变异。我们采用了一个统计模型来量化微透镜放大倍率的分布和影响,并利用贝叶斯方法来估计类星体内各种发射区域的尺寸。为了建立一个相对不受微透镜影响的基线,我们使用了发射线的核心作为参考。对 $r$ 波段光曲线的分析表明,在静帧紫外连续波中存在着很大的微透镜变化,这表明相对于图像 A,图像 B 被放大了多达 6 倍。所有研究的 BEL 曲线(Lyalpha , Si IV, C IV, C III)都有明显的微透镜引起的扭曲,这也证实了这一发现。
Revealing the inner workings of the lensed quasar SDSS J1339+1310 : Insights from microlensing analysis
We aim to unveil the structure of the continuum and broad-emission line (BEL) emitting regions in the gravitationally lensed quasar SDSS J1339+1310 by examining the distinct signatures of microlensing present in this system. Our study involves a comprehensive analysis of ten years (2009--2019) of photometric monitoring data and seven spectroscopic observations acquired between 2007 and 2017. This work focuses on the pronounced deformations in the BEL profiles between images A and B, alongside the chromatic changes in their adjacent continua and the striking microlensing variability observed in the $r$-band light curves. We employed a statistical model to quantify the distribution and impact of microlensing magnifications and utilized a Bayesian approach to estimate the dimensions of various emission regions within the quasar. To establish a baseline relatively free of microlensing effects, we used the cores of the emission lines as a reference. The analysis of the $r$-band light curves reveals substantial microlensing variability in the rest-frame UV continuum, suggesting that image B is amplified relative to image A by a factor of up to six. This finding is corroborated by pronounced microlensing-induced distortions in all studied BEL profiles (Lyalpha , Si IV, C IV, C III
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