Hydrogen Column Density Variability in a Sample of Local Compton-thin AGN II

The Astrophysical Journal Pub Date : 2025-01-24 DOI:10.3847/1538-4357/ad9c64

A. Pizzetti, N. Torres-Albà, S. Marchesi, J. Buchner, I. Cox, X. Zhao, S. Neal, D. Sengupta, R. Silver and M. Ajello

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Abstract

We present the multiepoch analysis of 13 variable, nearby (z ≲ 0.1), and Compton-thin (1022 < NH < 1.5 × 1024 cm−2) active galactic nuclei (AGN) selected from the 105-month BAT catalog. Analyzing all available archival soft and hard X-ray observations, we investigate the line-of-sight hydrogen column density (NH,los) variability on timescales ranging from a few days to approximately 20 yr. Each source is analyzed by simultaneously modeling the data with three physical torus models, providing tight constraints on torus properties, including the covering factor, the cloud dispersion, and the torus average hydrogen column density (NH,av). Our final sample includes 27 variable, Compton-thin AGN after implementing another 14 AGN analyzed in our previous work. We find that all sources require either flux or NH,los variability. Based on the degree of variability, we classify 37% of them as “NH,los Variable,” 44% as “Nonvariable in NH,los,” and 19% as “Undetermined.” Noticeably, there is no discernible difference between geometrical and intrinsic properties among the three variability classes, suggesting no intrinsic differences between the NH,los-variable and nonvariable sources within the considered sample. We measure the median variation in NH,los between any observation pair of the same source to be 25% with respect to the lowest NH,los measure in the pair. Furthermore, 48% of the analyzed sources require the inclusion of a Compton-thick reflector in the spectral fitting. Among these, 30% exhibit recorded 22 GHz water megamaser emission, suggesting a potential shared nature between the two structures.

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局部康普顿薄AGN II样品中的氢柱密度变异性

我们对从105个月的BAT星表中选出的13个变量，近（z > 0.1）和康普顿薄（1022 < NH < 1.5 × 1024 cm−2）活动星系核（AGN）进行了多历元分析。通过分析所有可用的软、硬x射线观测资料，我们研究了视距氢柱密度（NH,los）在几天到大约20年的时间尺度上的变化。通过同时用三种物理环面模型对数据进行建模来分析每个源，这些模型提供了环面特性的严格约束，包括覆盖因子、云色散和环面平均氢柱密度（NH,av）。我们的最终样本包括27个变量，康普顿薄AGN，在我们之前的工作中分析了另外14个AGN。我们发现所有的源要么需要通量要么需要NH，即损失变率。根据可变性的程度，我们将其中37%归为“NH，los变量”，44%归为“NH，los非变量”，19%归为“未确定”。值得注意的是，在三种可变性类别中，几何属性和内在属性之间没有明显的差异，这表明在所考虑的样本中，NH、损失变量和非变量源之间没有内在差异。我们测量相同来源的任意观测对之间的NH，损失的中位数变化相对于最低NH，损失测量值为25%。此外，48%的分析源需要在光谱拟合中包含康普顿厚反射器。其中，30%表现出记录的22 GHz水强激光发射，表明两种结构之间可能具有共同的性质。

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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The Astrophysical Journal

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