VUV Photochemistry of PAHs Trapped in Interstellar Water Ice

PAHs and the Universe Pub Date : 2020-11-04 DOI:10.1051/EAS/1146027
J. Bouwman, H. Cuppen, L. Allamandola, H. Linnartz
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引用次数: 1

Abstract

The mid-infrared emission of Polycyclic Aromatic Hydrocarbons is found in many phases of the interstellar medium. Towards cold dense clouds, however, the emission is heavily quenched. In these regions molecules are found to efficiently freeze-out on interstellar grains forming thin layers of ices. PAHs are highly non-volatile molecules and are also expected to freeze-out. PAHs trapped in interstellar ices are likely to participate in the overall chemistry, leading to the formation of cations and complex molecules in the solid-state. The work presented here aims to experimentally study the chemical reactions that PAHs undergo upon vacuum ultraviolet irradiation when trapped in interstellar H 2 O ice.
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星际水冰中多环芳烃的紫外光化学研究
在星际介质的许多相中都发现了多环芳烃的中红外辐射。然而,在寒冷稠密的云层中,辐射被严重熄灭。在这些区域,分子被发现有效地冻结在星际颗粒上,形成薄层冰。多环芳烃是高度不挥发的分子,预计也会被冻结。被困在星际冰中的多环芳烃很可能参与了整个化学过程,导致固态中阳离子和复杂分子的形成。本研究的目的是通过实验研究多环芳烃在真空紫外线照射下被困在星际h2o冰中的化学反应。
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PAHs and the Universe
PAHs and the Universe
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