Systematic Study of the Inner Structure of Molecular Tori in Nearby U/LIRGs Using Velocity Decomposition of CO Rovibrational Absorption Lines*

Shusuke Onishi, Takao Nakagawa, Shunsuke Baba, Kosei Matsumoto, Naoki Isobe, Mai Shirahata, Hiroshi Terada, Tomonori Usuda and Shinki Oyabu
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Abstract

Determining the inner structure of the molecular torus around an active galactic nucleus is essential for understanding its formation mechanism. However, spatially resolving the torus is difficult because of its small size. To probe the clump conditions in the torus, we therefore perform the systematic velocity-decomposition analyses of the gaseous 12CO rovibrational absorption lines (v = 0 → 1, ΔJ = ±1) at λ ∼ 4.67 μm observed toward four (ultra)luminous infrared galaxies using the high-resolution (R ∼ 5000–10,000) spectroscopy from the Subaru Telescope. We find that each transition has two to five distinct velocity components with different line-of-sight (LOS) velocities (VLOS ∼ −240 to +100 km s−1) and dispersions (σV ∼ 15–190 km s−1), i.e., the components (a), (b), ⋯, beginning with the broadest one in each target, indicating that the tori have clumpy structures. By assuming a hydrostatic disk ( ), we find that the tori has dynamic inner structures, with the innermost component (a) outflowing with velocity ∣VLOS∣ ∼ 160–240 km s−1, and the outer components (b) and (c) outflowing more slowly or infalling with ∣VLOS∣ ≲ 100 km s−1. In addition, we find that the innermost component (a) can be attributed to collisionally excited hot (≳530 K) and dense ( ) clumps, based on the level populations. Conversely, the outer component (b) can be attributed to cold (∼30–140 K) clumps radiatively excited by a far-infrared-to-submillimeter background with a brightness temperature higher than ∼20–400 K. These observational results demonstrate the clumpy and dynamic structure of tori in the presence of background radiation.
利用一氧化碳振动吸收线的速度分解系统研究近邻U/LIRG中分子环的内部结构*
确定活动星系核周围分子环的内部结构对于了解其形成机制至关重要。然而,由于环的尺寸较小,很难对其进行空间分辨。为了探究环内的团块状况,我们利用斯巴鲁望远镜的高分辨率(R ∼ 5000-10000)光谱,对气态 12CO 震荡吸收线(v = 0 → 1,ΔJ = ±1)在 λ ∼ 4.67 μm 处观测到的四个(超)亮红外星系进行了系统的速度分解分析。我们发现每个转变都有两到五个不同的速度分量,它们具有不同的视线速度(VLOS ∼ -240 to +100 km s-1)和色散(σV ∼ 15-190 km s-1),即分量(a)、(b)、⋯,从每个目标中最宽的一个分量开始,表明环状结构是团块状的。通过假定一个静水盘( ),我们发现环状体具有动态的内部结构,最内层的成分(a)以∣VLOS∣ ∼ 160-240 km s-1的速度外流,而外层的成分(b)和(c)则以∣VLOS∣ ≲ 100 km s-1的速度缓慢外流或内陷。此外,我们还发现,最内侧的成分(a)可以归因于碰撞激发的热(≳530 K)和致密( )团块,这是基于水平种群。相反,外围部分(b)可以归因于被远红外到亚毫米波背景辐射激发的冷(∼30-140 K)团块,其亮度温度高于∼20-400 K。
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