FAST Observations of Four Comets to Search for the Molecular Line Emissions between 1.0 and 1.5 GHz Frequencies

arXiv - PHYS - Earth and Planetary Astrophysics Pub Date : 2024-09-10 DOI:arxiv-2409.06227

Long-Fei Chen, Chao-Wei Tsai, Jian-Yang Li, Bin Yang, Di Li, Yan Duan, Chih-Hao Hsia, Zhichen Pan, Lei Qian, Donghui Quan, Xue-Jian Jiang, Xiaohu Li, Ruining Zhao, Pei Zuo

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Abstract

We used the Five-hundred-meter Aperture Spherical radio Telescope (FAST) to search for the molecular emissions in the L-band between 1.0 and 1.5 GHz toward four comets, C/2020 F3 (NEOWISE), C/2020 R4 (ATLAS), C/2021 A1 (Leonard), and 67P/Churyumov-Gerasimenko during or after their perihelion passages. Thousands of molecular transition lines fall in this low-frequency range, many attributed to complex organic or prebiotic molecules. We conducted a blind search for the possible molecular lines in this frequency range in those comets and could not identify clear signals of molecular emissions in the data. Although several molecules have been detected at high frequencies of great than 100 GHz in comets, our results confirm that it is challenging to detect molecular transitions in the L-band frequency ranges. The non-detection of L-band molecular lines in the cometary environment could rule out the possibility of unusually strong lines, which could be caused by the masers or non-LTE effects. Although the line strengths are predicted to be weak, for FAST, using the ultra-wide bandwidth receiver and improving the radio frequency interference environments would enhance the detectability of those molecular transitions at low frequencies in the future.

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对四颗彗星进行 FAST 观测以搜索 1.0 和 1.5 千兆赫频率之间的分子线发射

我们利用五百米孔径球面射电望远镜（FAST）在 1.0 和 1.5 千兆赫之间的 L 波段对四颗彗星（C/2020 F3 (NEOWISE)、C/2020 R4 (ATLAS)、C/2021 A1 (Leonard) 和 67P/Churyumov-Gerasimenko 彗星）的近日点期间或之后的分子辐射进行了搜索。在这个低频范围内有数千条分子过渡线，其中许多是复杂的有机分子或前生物分子。我们对这些彗星中这一频率范围内可能存在的分子线进行了盲搜索，但无法在数据中识别出明确的分子发射信号。虽然在大于 100 千兆赫的高频率彗星上探测到了一些分子，但我们的结果证实，在 L 波段频率范围内探测到分子过渡具有挑战性。在彗星环境中未探测到 L 波段分子线可能排除了异常强的线的可能性，这些线可能是由 masers 或非 LTE 效应引起的。虽然预测线强度较弱，但对于 FAST 来说，使用超宽带接收器和改善射频干扰环境将在未来提高低频分子跃迁的可探测性。

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arXiv - PHYS - Earth and Planetary Astrophysics

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