Bin Liu, Junzhi Wang, Bo Zhang, Shanghuo Li, Shu Liu, Juan Li, Bo Peng, Min Fang, Xiaofeng Mai
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引用次数: 0
摘要
利用大型单碟望远镜(如 L 波段的五百米孔径球面射电望远镜(FAST))观测低频十亿分氢射电重组线(RRLs),是探测数百帕尺度大质量恒星形成的一种独特方法。这种方法对于探测大质量恒星电离出的低密度气体发出的相对微弱和延伸的辐射特别有效。利用大型单碟望远镜进行的深度、无偏差的分米波或厘米波RRL巡天可以大大提高我们对银河面上弥漫电离气体的了解。这反过来又会增进我们对星际介质中物质生命周期和银河系动力学的了解。在此背景下,我们介绍了一个利用 FAST 进行的以银河系平面为目标的 L 波段 RRL 盲巡天试验项目。结果包括探测到了RRL团块,并在人马座-卡里纳臂附近发现了一个臂外活跃的大质量恒星形成区。该区域正在形成和即将形成的大质量恒星可能与人马座-卡里纳臂在方位角 23$^ circ $ 附近的扭结有关。
A pilot study of Galactic radio recombination lines using FAST: Identification of diffuse ionized gas clumps and off-arm star-forming regions
Observing low-frequency decimeter hydrogen radio recombination lines (RRLs) with large single-dish telescopes, such as the Five-hundred-meter Aperture Spherical radio Telescope (FAST) in the L band, is a unique method for probing massive star formation on scales of hundreds of parsecs. This approach is particularly effective for detecting relatively weak and extended emissions from low-density gas ionized by massive stars.
Deep, unbiased decimeter or centimeter RRL surveys with large single-dish telescopes can significantly enhance our understanding of the diffuse ionized gas along the Galactic plane. This, in turn, will improve our knowledge of the life cycle of matter in the interstellar medium and the dynamics of the Galaxy. In this context, we present a pilot project for such a blind L-band RRL survey targeting the Galactic plane and conducted using FAST. The results include the detection of RRL clumps and the identification of an off-arm active massive star-forming region near the Sagittarius-Carina arm. The ongoing and upcoming massive star formation in this region may be associated with the kink in the Sagittarius-Carina arm near 23$^ circ $ azimuth.
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