Multicomponent Ionized Gas Outflows in the Hot Dust-obscured Galaxy W2026+0716 with Keck/OSIRIS

The Astrophysical Journal Pub Date : 2025-06-02 DOI:10.3847/1538-4357/adc9b5

Chao Liu, Chao-Wei Tsai, Peter R. M. Eisenhardt, Hyunsung D. Jun, Guodong Li, Jingwen Wu, Roberto J. Assef, Andrew W. Blain, Maren Cosens, Tanio Díaz-Santos, Román Fernández Aranda, Lei Hao, Mai Liao, Shuai Liu, Daniel Stern, Andrey Vayner, Shelley Wright and Sherry Yeh

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Abstract

We present narrowband-filtered integral field unit observations of the hot dust-obscured galaxy (Hot DOG) WISE J202615.27+071624.0 (hereafter W2026+0716) at redshift z = 2.570 using Keck/OSIRIS. Our analysis reveals a multicomponent ionized gas outflow structure in this heavily obscured active galactic nucleus (AGN) host galaxy. Multicomponent Gaussian decomposition of the [O iii] and Hα emission lines uncovers extremely broad and asymmetric profiles, characteristic of AGN-driven outflows. Kinematic mapping shows spatially distinct structures: the [O iii]- and Hα-dominated components (with radii of 1.20 ± 0.56 kpc) are separated by a projected offset of ∼1.1 kpc and exhibit divergent velocity regimes. The [O iii] outflow reaches a velocity of 3210 ± 50 km s−1, while the Hα outflow component attains 2310±840 km s−1. Dynamical modeling supports a biconical outflow structure, with [O iii] and Hα emissions dominating separate cones and significant dust obscuration of the redshifted outflow. Their comparable momentum outflow rates and energy outflow rates suggest a potential physical connection in their driving mechanisms. Spectral energy distribution analysis reveals anomalous optical/UV excess, attributed to AGN photon scattering by dust or outflowing material, classifying W2026+0716 as a “Blue Hot DOG”. The derived outflow timescale (∼105 yr) aligns with the evolutionary phase of Blue Hot DOGs, suggesting AGN feedback operates persistently during this transitional stage.

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热尘埃遮蔽星系W2026+0716的多组分电离气体流出与Keck/OSIRIS

我们利用Keck/OSIRIS对热尘埃遮挡星系（hot DOG） WISE J202615.27+071624.0（以下简称W2026+0716）的红移z = 2.570进行了窄带滤波积分场单元观测。我们的分析揭示了在这个严重模糊的活动星系核（AGN）宿主星系中存在多组分电离气体流出结构。[O iii]和Hα发射谱线的多分量高斯分解揭示了极其广泛和不对称的轮廓，这是agn驱动流出的特征。运动学映射显示出空间上不同的结构：[O iii]-和h α-主导的成分（半径为1.20±0.56 kpc）被约1.1 kpc的投影偏移区分开，并表现出不同的速度状态。[O iii]流出速度达到3210±50 km s−1，而Hα流出速度达到2310±840 km s−1。动力学模型支持一个双锥型流出结构，[O iii]和Hα辐射主导着单独的锥，红移流出部分有明显的尘埃遮挡。它们可比较的动量流出率和能量流出率表明它们的驱动机制中存在潜在的物理联系。光谱能量分布分析揭示了异常的光学/紫外线过剩，归因于尘埃或流出物质的AGN光子散射，将W2026+0716归类为“蓝色热狗”。导出的流出时间尺度（~ 105年）与蓝热狗的进化阶段一致，表明AGN反馈在这一过渡阶段持续运作。

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The Astrophysical Journal

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