Using the Very Large Array, H I observations of Kepler's supernova remnant (SN 1604, 3C 358) have been carried out with an angular resolution of approximately 15'' and a velocity resolution of 1.3 km s-1. The distance to this historical supernova remnant (SNR; diameter ~3') has been controversial, with estimates ranging from a few kiloparsecs to 12 kpc. Based on a weak H I absorption feature at +21.3 km s-1 seen in the new data, a lower limit of 4.8 ± 1.4 kpc can be derived. No prominent interstellar H I features are detected near Kepler's SNR, indicating that the evolution of the remnant has been influenced by the circumstellar medium, while the interstellar medium seems to have had negligible effect on the expansion process. At a velocity of +21.3 km s-1, emission from an H I cloud to the east of the SNR is detected, which may be physically associated with the remnant of SN 1604, based on morphological considerations. An upper limit of 6.4 kpc to the distance can be derived based on the lack of H I absorption at a velocity of +50 km s-1, where extended H I emission is detected.
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机译:使用超大型阵列,开普勒的超新星遗迹(SN 1604、3C 358)的H I观测已以约15英寸的角分辨率和1.3 km s-1的速度分辨率进行。距该历史超新星遗迹的距离(SNR;直径约3')一直存在争议,估计范围为几千帕至12 kpc。根据新数据中在+21.3 km s-1处弱的H I吸收特征,可以得出4.8±1.4 kpc的下限。在开普勒信噪比附近未检测到明显的星际H I特征,这表明残余物的演化受到了星际介质的影响,而星际介质似乎对扩展过程的影响可忽略不计。基于形态学考虑,以+21.3 km s-1的速度检测到从H I云到SNR东部的发射,该发射可能与SN 1604的残余物物理相关。可以基于在+50 km s-1的速度下缺少H I吸收来得出该距离的上限6.4 kpc,其中检测到扩展的H I发射。
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