星际云温度下C + HO反应的异构体特异性动力学。

Isomer-specific kinetics of the C + HO reaction at the temperature of interstellar clouds.

作者信息

Yang Tiangang, Li Anyang, Chen Gary K, Yao Qian, Suits Arthur G, Guo Hua, Hudson Eric R, Campbell Wesley C

机构信息

Department of Physics and Astronomy, University of California, Los Angeles, Los Angeles, CA 90095, USA.

Department of Chemistry, Southern University of Science and Technology, Shenzhen 518055, P. R. China.

出版信息

Sci Adv. 2021 Jan 6;7(2). doi: 10.1126/sciadv.abe4080. Print 2021 Jan.

DOI:10.1126/sciadv.abe4080

PMID:33523979

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7787479/

Abstract

The reaction C + HO → HCO/HOC + H is one of the most important astrophysical sources of HOC ions, considered a marker for interstellar molecular clouds exposed to intense ultraviolet or x-ray radiation. Despite much study, there is no consensus on rate constants for formation of the formyl ion isomers in this reaction. This is largely due to difficulties in laboratory study of ion-molecule reactions under relevant conditions. Here, we use a novel experimental platform combining a cryogenic buffer-gas beam with an integrated, laser-cooled ion trap and high-resolution time-of-flight mass spectrometer to probe this reaction at the temperature of cold interstellar clouds. We report a reaction rate constant of = 7.7(6) × 10 cm s and a branching ratio of formation η = HOC/HCO = 2.1(4). Theoretical calculations suggest that this branching ratio is due to the predominant formation of HOC followed by isomerization of products with internal energy over the isomerization barrier.

摘要

反应C + HO → HCO/HOC + H是HOC离子最重要的天体物理来源之一，被视为暴露于强烈紫外线或X射线辐射的星际分子云的一个标志。尽管进行了大量研究，但对于该反应中形成甲酰离子异构体的速率常数尚无共识。这主要是由于在相关条件下对离子-分子反应进行实验室研究存在困难。在此，我们使用一个新型实验平台，该平台将低温缓冲气体束与集成的激光冷却离子阱和高分辨率飞行时间质谱仪相结合，以在冷星际云的温度下探测此反应。我们报告反应速率常数为 = 7.7(6) × 10 cm s ，以及形成分支比η = HOC/HCO = 2.1(4)。理论计算表明，该分支比是由于HOC的优先形成，随后产物通过越过异构化势垒的内能进行异构化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/717c/7787479/c9f4e671e7a1/abe4080-F1.jpg

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星际云温度下C + HO反应的异构体特异性动力学。

Isomer-specific kinetics of the C + HO reaction at the temperature of interstellar clouds.

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