First direct detection of large polycyclic aromatic hydrocarbons on asteroid (162173) Ryugu samples: An interstellar heritage

Hassan Sabbah, Ghylaine Quitté, Karine Demyk, Christine Joblin
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Abstract

Polycyclic aromatic hydrocarbons (PAHs) are considered major players in the physics and chemistry of star‐ and planet‐forming regions. The interstellar PAH hypothesis is based on our understanding of the origin of the aromatic infrared bands (AIBs), a set of bright emission features that are now the focus of observations by the James Webb telescope. While AIB carriers are expected to be large free PAHs (50 carbon atoms or more), laboratory analysis of primitive carbonaceous chondrites (CCs) has mainly revealed relatively small PAHs, up to 24 carbon atoms. In this study, we present a comprehensive analysis of aromatic species in bulk samples from the carbonaceous asteroid Ryugu using a surface mass spectrometry technique provided by two‐step laser desorption ionization. The resulting molecular distribution differs significantly from that obtained for a sample from the CC Orgueil, revealing aromatic species extending up to 61 carbon atoms. The species identified are composed of both peri‐condensed PAHs and non‐condensed aromatics. These results directly support the interstellar PAH hypothesis and open up new perspectives on the formation and evolution of organic matter in star‐forming regions and in the solar nebula.Key Points First direct detection of free aromatic species of large sizes with up to 61 carbon atoms in primitive extraterrestrial matter by applying a highly sensitive two‐step laser mass spectrometry analysis to grain samples from the carbonaceous asteroid Ryugu (Hayabusa2 mission). First direct support for the interstellar polycyclic aromatic hydrocarbon (PAH) hypothesis, according to which large free PAHs are responsible for the aromatic emission bands that are major infrared features currently observed by the James Webb Space Telescope. The large aromatic species detected are present in trace amounts and future research is needed to develop sensitive techniques for studying these compounds in sample return missions and meteorites.

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首次在小行星(162173)龙宫样本上直接探测到大型多环芳烃:星际遗产
多环芳香烃(PAHs)被认为是恒星和行星形成区域物理和化学中的主要角色。星际多环芳烃假说基于我们对芳香族红外波段(AIB)起源的理解,这是一组明亮的发射特征,目前是詹姆斯-韦伯望远镜观测的重点。虽然 AIB 的载体预计是大的游离多环芳烃(50 个碳原子或更多),但对原始碳质软玉(CCs)的实验室分析主要揭示了相对较小的多环芳烃,最多只有 24 个碳原子。在本研究中,我们利用两步激光解吸电离技术提供的表面质谱技术,对来自龙宫碳质小行星的块状样品中的芳香族物种进行了全面分析。分析得出的分子分布与从CC Orgueil小行星样品中获得的分子分布有很大不同,揭示的芳香族物种可延伸至61个碳原子。确定的物种由近凝结多环芳烃和非凝结芳烃组成。这些结果直接支持了星际多环芳烃假说,并为研究恒星形成区和太阳星云中有机物质的形成和演化开辟了新的视角。 重点 通过对碳质小行星 "龙宫"(Hayabusa2 任务)的颗粒样本进行高灵敏度的两步激光质谱分析,首次直接探测到原始地外物质中具有高达 61 个碳原子的大尺寸自由芳香物种。首次直接支持星际多环芳香烃(PAH)假说,根据该假说,大型游离多环芳香烃是目前詹姆斯-韦伯太空望远镜观测到的主要红外特征芳香发射带的成因。检测到的大型芳香族物种含量微乎其微,未来的研究需要开发灵敏的技术来研究样本返回任务和陨石中的这些化合物。
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