Laboratory Spectroscopy of Protonated PAH Molecules Relevant For Interstellar Chemistry

PAHs and the Universe Pub Date : 2011-03-01 DOI:10.1051/EAS/1146010
O. Dopfer
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引用次数: 3

Abstract

In this contribution, we summarize the recent progress made in recording laboratory infrared (IR) spectra of protonated polycyclic aromatic hydrocarbon molecules (H + PAH) in the gas phase. The IR spectra of a large variety of H + PAH species ranging from benzene to coronene have been obtained by various variants of photodissociation spectroscopy. The employed techniques include single-photon IR photodissociation (IRPD) of tagged H + PAH ions and IR multiple-photon dissociation (IRMPD) of bare H + PAH ions. The comparison of the laboratory IR spectra with astronomical spectra supports the hypothesis that H + PAH ions are possible carriers of the unidentified IR emission (UIR) bands. Moreover, the spectra provide detailed information about the geometric and electronic structure as well as the chemical reactivity and stability of these fundamental hydrocarbon ions.
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与星际化学相关的质子化多环芳烃分子的实验室光谱学
本文综述了近年来质子化多环芳烃分子(H + PAH)气相实验室红外光谱的研究进展。利用不同的光解光谱法,得到了从苯到冠烯的多种H + PAH的红外光谱。所采用的技术包括标记H + PAH离子的单光子红外光解(IRPD)和裸H + PAH离子的红外多光子光解(IRMPD)。实验室红外光谱与天文光谱的比较支持了H + PAH离子可能是未知红外发射(UIR)波段的载流子的假设。此外,光谱还提供了这些基本烃离子的几何和电子结构以及化学反应性和稳定性的详细信息。
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PAHs and the Universe
PAHs and the Universe
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