Jin-A Kim, Haeun Chung, Carlos J. Vargas, E. Hamden
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引用次数: 0
摘要
我们研究了远紫外光谱探测器的档案数据,以寻找星爆星系M82中的远紫外发射线。观测是在银河系盘之外的外流区进行的。我们在星系南部的流出区发现了 O vi λ 1032、1038 发射线。O vi线表明,流出的暖热气体正在经历辐射冷却。我们从 O vi 线测出的径向速度为 ∼420 km s-1,比 Hα 观测中的速度要快。O vi λ1038 辐射线似乎与 C ii λ1037 辐射线混合在一起,后者的径向速度为 ∼300 km s-1,与 Hα 观测数据类似。M82的外流介质似乎是由温度和运动学各不相同的多相气体组成的。为了更好地了解外流中的暖热气体介质的性质,未来有必要在更大的空间范围内进行高能量的光谱观测。
UV Cooling via O VI Emission in the Superwind of M82 Observed with the Far Ultraviolet Spectroscopic Explorer (FUSE)
We examined archival Far Ultraviolet Spectroscopic Explorer data to search for far-ultraviolet emission lines in the starburst galaxy M82. The observations were made in an outflow region that extends beyond the galactic disk. We found the O vi λ λ 1032, 1038 emission lines from the galaxy’s southern outflow region. The O vi lines suggest that the outflowing warm-hot gas is undergoing radiative cooling. We measured a radial velocity of ∼420 km s−1 from the O vi lines, which is faster than the velocity seen in Hα observations. The O vi λ1038 emission line seems to be blended with the C ii λ1037 emission line, which has a radial velocity of ∼300 km s−1, similar to what is observed in Hα observations. The outflow medium of M82 appears to be composed of gas in multiple phases with varying temperatures and kinematics. Future spectroscopic observations in high energy regimes covering a wider spatial area are necessary to understand better the properties of the warm-hot gas medium in the outflow.
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