Galaxy properties of type 1 and 2 X-ray selected AGN and a comparison among different classification criteria

G. Mountrichas, V. Buat, I. Georgantopoulos, G. Yang, V. Masoura, M. Boquien, D. Burgarella
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引用次数: 4

Abstract

We present analyses of host galaxy properties of type 1 and type 2 X-ray selected AGNs in the XMM-XXL field, which have available optical spectroscopic classification. We model their optical to far-infrared spectral energy distributions (SEDs) using the X-CIGALE code. X-CIGALE allows the fitting of X-ray flux and accounts for the viewing angle of dusty torus and the attenuation from polar dust. By selecting matched type 1 and 2 subsamples in the X-ray luminosity and redshift parameter space, we find that both types live in galaxies with similar star formation. However, type 2 AGN tend to reside in more massive systems ($10.87^{+0.06}_{-0.12}\,\rm M_\odot$) compared to their type 1 counterparts ($10.57^{+0.20}_{-0.12}\,\rm M_\odot$). In the second part of our analysis, we compare the spectroscopic classification with that from the SED fitting. X-CIGALE successfully identifies all spectroscopic type 2 sources either by estimating an inclination angle that corresponds to edge on viewing of the source or by measuring increased polar dust in these systems. $\sim 85\%$ of spectroscopic type 1 AGN are also identified as such, based on the SED fitting analysis. There is a small number of sources ($\sim 15\%$ of the sample), that present broad lines in their spectra, but show strong indications of obscuration, based on SED analysis. These, could be systems that are viewed face on and have an extended dust component along the polar direction. The performance of X-CIGALE in classifying AGN is similar at low and high redshifts, under the condition that there is sufficient photometric coverage. Finally, usage of optical/mid-IR colour criteria to identify optical red AGN (${\it{u}}-\rm W3$), suggests that these criteria are better suited for IR selected AGN and their efficiency drops for the low to moderate luminosity sources included in X-ray samples.
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1型和2型x射线选择AGN的星系性质及不同分类标准的比较
我们分析了XMM-XXL场中具有可用光谱分类的1型和2型x射线选择agn的宿主星系性质。我们使用X-CIGALE代码对它们的光学到远红外光谱能量分布(SEDs)进行了建模。X-CIGALE允许x射线通量的拟合,并考虑了尘埃环面的视角和极地尘埃的衰减。通过在x射线光度和红移参数空间中选择匹配的1型和2型子样本,我们发现这两种类型都存在于恒星形成相似的星系中。然而,与1型AGN ($10.57^{+0.20}_{-0.12}\,\rm M_\odot$)相比,2型AGN往往驻留在更大的系统中($10.87^{+0.06}_{-0.12}\,\rm M_\odot$)。在分析的第二部分,我们将光谱分类与SED拟合的分类进行比较。X-CIGALE成功地识别了所有的光谱型2源,或者通过估计与观测源边缘相对应的倾斜角,或者通过测量这些系统中增加的极地尘埃。基于SED拟合分析,也确定了光谱1型AGN的$\sim 85\%$。有少数源(样品的$\sim 15\%$),在它们的光谱中呈现出宽线,但根据SED分析显示出强烈的模糊迹象。这些可能是正面观察的系统,并且沿着极地方向有延伸的尘埃成分。在有足够的光度覆盖的情况下,X-CIGALE在低红移和高红移情况下对AGN的分类性能是相似的。最后,使用光学/中红外颜色标准来识别光学红色AGN (${\it{u}}-\rm W3$),表明这些标准更适合红外选择的AGN,并且对于x射线样品中包含的低至中等光度源,它们的效率下降。
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