X-ray flux in SED modelling: An application of X-CIGALE in the XMM-XXL field

G. Mountrichas, V. Buat, Guang Yang, M. Boquien, Denis, Burgarella, L. Ciesla
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引用次数: 7

Abstract

X-CIGALE, built upon the spectral energy distribution (SED) code of CIGALE, implements important new features: The code accounts for obscuring material in the polars of the AGN and has the ability to fit X-ray fluxes. In this work, we use ~2500 spectroscopic, X-ray AGN from the XMM-XXL-North field and examine the improvements the new features bring in the SED modelling analysis. Based on our results, X-CIGALE successfully connects the X-ray with the UV luminosity in the whole range spanned by our sample (log Lx(2-10 keV) = (42 - 46) erg/s). The addition of the new features globally improves the efficiency of X-CIGALE in the estimation and characterization of the AGN component. The classification into type 1 and type 2 based on their inclination angle is improved, especially at redshifts lower than 1. The statistical significance of the AGN fraction, fracAGN, measurements is increased, in particular for luminous X-ray sources (log LX > 45 erg/s). These conclusions hold under the condition that (mid-) IR photometry is available in the SED fitting process. The addition of polar dust increases the AGN fraction and the efficiency of the SED decomposition to detect AGN among X-ray selected sources. X-CIGALE estimates a strong AGN (fracAGN > 0.3) in more than 90% of the infrared selected AGN and 75% of X-ray detected AGN not selected by IR colour criteria. The latter drops to ~50% when polar dust is not included. The ability of X-CIGALE to include X-ray information in the SED fitting process can be instrumental in the optimal exploitation of the wealth of data that current (eROSITA) and future (ATHENA) missions will provide us.
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x射线通量在SED模型中的应用:X-CIGALE在XMM-XXL领域的应用
X-CIGALE建立在CIGALE的光谱能量分布(SED)代码的基础上,实现了重要的新功能:该代码考虑了AGN两极的模糊物质,并具有适应x射线通量的能力。本文利用XMM-XXL-North油田的~2500光谱x射线AGN,研究了新特征对SED建模分析的改进。根据我们的结果,X-CIGALE成功地将x射线与我们的样品所跨越的整个范围内的UV亮度(log Lx(2-10 keV) = (42 - 46) erg/s)连接起来。新特征的加入提高了X-CIGALE在AGN组件估计和表征方面的效率。根据倾角对1型和2型的分类得到了改进,特别是在红移小于1时。AGN分数(fracAGN)测量值的统计显著性增加,特别是对于发光x射线源(log LX > 45 erg/s)。这些结论是在(中)红外光度法可用于SED拟合的条件下成立的。极性粉尘的加入增加了AGN的分数和SED分解在x射线选择源中检测AGN的效率。X-CIGALE估计90%以上的红外选择AGN和75%的x射线检测到的未被红外颜色标准选择的AGN具有强AGN (fracAGN > 0.3)。当不包括极尘时,后者降至~50%。X-CIGALE在SED拟合过程中包含x射线信息的能力有助于优化利用当前(eROSITA)和未来(ATHENA)任务将为我们提供的丰富数据。
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