CHEMOUT: CHEMical complexity in star-forming regions of the OUTer Galaxy. IV. ALMA observations of organic species at Galactocentric radius ~23 kpc

arXiv - PHYS - Astrophysics of Galaxies Pub Date : 2024-09-11 DOI:arxiv-2409.07243

F. FontaniINAF - Osservatorio Astrofisico di Arcetri, Florence, ItalyMax-Planck-Institut für extraterrestrische Physik, Garching bei München, GermanyLERMA, Observatoire de Paris, Meudon, France, G. VermariënLeiden Observatory, Leiden, The Netherlands, S. VitiLeiden Observatory, Leiden, The Netherlands, D. GigliINAF - Osservatorio Astrofisico di Arcetri, Florence, ItalyDipartimento di Fisica e Astronomia, Sesto Fiorentino, L. ColziCentro de Astrobiología, M. T. BeltránINAF - Osservatorio Astrofisico di Arcetri, Florence, Italy, P. CaselliMax-Planck-Institut für extraterrestrische Physik, Garching bei München, Germany, V. M. RivillaCentro de Astrobiología, ÁInstitut de Ciències de l'EspaiInstitut d'Estudis Espacials de Catalunya, Sánchez-MongeInstitut de Ciències de l'EspaiInstitut d'Estudis Espacials de Catalunya

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Abstract

Single-dish observations suggest that the abundances of organic species in star-forming regions of the outer Galaxy, characterised by sub-Solar metallicities, are comparable to those found in the local Galaxy. To understand this counter-intuitive result, and avoid misleading interpretation due to beam dilution effects at such large distances, spatially resolved molecular emission maps are needed to link correctly measured abundances and local physical properties. We observed several organic molecules with the Atacama Large Millimeter Array towards WB89-671, the source with the largest Galactocentric distance (23.4~kpc) of the project "CHEMical complexity in star-forming regions of the OUTer Galaxy" (CHEMOUT), at a resolution of 15000~au. We compared the observed molecular abundances with chemical model predictions. We detected emission of c-C3H2, C4H, CH3OH, H2CO, HCO, H13CO+, HCS+, CS, HN13C, and SO. The emission morphology is complex, extended, and different in each tracer. The most intense emission in H13CO+, H2CO and c-C3H2 arises from two millimeter continuum, infrared-bright cores. The most intense CH3OH and SO emission arises predominantly from the part of the filament with no continuum sources. The narrow linewidths across the filament indicate quiescent gas, despite the two embedded protostars. Derived molecular column densities are comparable with those in local star-forming regions, and suggest anti-correlation between hydrocarbons, ions, HCO, and H2CO on one side, and CH3OH and SO on the other. Static chemical models that best match the observed column densities favour low energetic conditions, expected at large Galactocentric radii, but carbon elemental abundances 3 times higher than that derived extrapolating the [C/H] Galactocentric gradient at 23~kpc. This would indicate a flatter [C/H] trend at large Galactocentric radii, in line with a flat abundance of organics.

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CHEMOUT：外银河系恒星形成区的化学复杂性。IV.ALMA 对银河系半径 ~23 kpc 处有机物种的观测

单碟观测结果表明，外银河系有机物种雏形形成区的丰度与本地银河系的丰度相当，其特点是具有亚太阳金属性。为了理解这一违背直觉的结果，并避免在如此大的距离上由于光束稀释效应而产生误导性解释，需要空间分辨分子发射图来将正确测量的丰度与本地物理特性联系起来。我们利用阿塔卡马大型毫米波阵列对 WB89-671 观测到了几种有机分子，WB89-671 是 "外银河系恒星形成区的化学复杂性"（CHEMOUT）项目中银河系中心距离（23.4~kpc）最大的源，其分辨率为 15000~au。我们将观测到的分子丰度与化学模型的预测值进行了比较。我们探测到了 c-C3H2、C4H、CH3OH、H2CO、HCO、H13CO+、HCS+、CS、HN13C 和 SO 的发射。每种示踪剂的发射形态都很复杂、扩展且各不相同。在 H13CO+、H2CO 和 c-C3H2 中，最强烈的发射来自两个毫米级连续的红外亮核。最强烈的 CH3OH 和 SO 辐射主要来自没有连续光源的灯丝部分。尽管有两颗嵌入的原恒星，但整个灯丝的窄线宽表明气体处于静态。推导出的分子柱密度与当地恒星形成区的分子柱密度相当，表明一边是碳氢化合物、离子、HCO和H2CO，另一边是CH3OH和SO，它们之间是反相关的。这表明在较大的半径范围内，[C/H]的变化趋势与有机物丰度的变化趋势一致。

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arXiv - PHYS - Astrophysics of Galaxies

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