The NASA Ames PAH IR Spectroscopic Database and the far-IR

PAHs and the Universe Pub Date : 2011-03-01 DOI:10.1051/EAS/1146011

C. Boersma, L. Allamandola, C. Bauschlicher, A. Ricca, J. Cami, E. Peeters, F. S. D. Armas, G. P. Saborido, A. Mattioda, D. Hudgins

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引用次数: 2

Abstract

Polycyclic Aromatic Hydrocarbons (PAHs) are widespread across the Universe and influence many stages of the Galactic lifecycle. The presence of PAHs has been well established and the rich mid-IR PAH spectrum is now commonly used as a probe into (inter)stellar envi- ronments. The NASA Ames PAH IR Spectroscopic Database has been key to test and refine the "PAH hypothesis". This database is a large coherent set (>600 spectra) of laboratory measured and DFT computed infrared spectra of PAHs from C10H8 to C130H28 and has been made available on the web at (http://www.astrochem.org/pahdb). With a new spectral window opening up; the far-IR, the study of PAH far-IR spectra and the quest for identifying a unique member of the interstel- lar PAH family has begun. To guide this research, the far-IR (>20 µm) spectra of different sets of PAHs are investigated using the NASA Ames PAH IR Spectroscopic Database. These sets explore the influence of size, shape, charge and composition on the far-IR PAH spectrum. The far-IR is also the domain of the so-called "drumhead" modes and other molecular vibrations involving low order bending vibrations of the car- bon skeleton as a whole. As with drums, these are molecule and shape specific and promise to be a key diagnostic for specific PAHs. Here, the sensitivity of these "drumhead" modes to size and shape is assessed by comparing the frequencies of the lowest drumhead modes of a family of circular shaped (the coronene "family") and rhombus shaped (the pyrene "family") PAH molecules. From this study, some consequences for an observing strategy are drawn.

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美国宇航局艾姆斯多环芳烃红外光谱数据库和远红外

多环芳烃(PAHs)在宇宙中广泛存在，影响着银河系生命周期的许多阶段。多环芳烃的存在已经被很好地确定，丰富的中红外多环芳烃光谱现在通常被用作探测(星际)环境的探针。NASA艾姆斯多环芳烃红外光谱数据库是检验和完善“多环芳烃假说”的关键。该数据库是实验室测量和DFT计算的多环芳烃从C10H8到C130H28的红外光谱的大型相干集(>600个光谱)，已在网站(http://www.astrochem.org/pahdb)上提供。随着一个新的光谱窗口的打开;远红外，多环芳烃远红外光谱的研究和寻找星际多环芳烃家族独特成员的探索已经开始。为了指导本研究，使用NASA Ames多环芳烃红外光谱数据库研究了不同组多环芳烃的远红外(>20µm)光谱。这些装置探讨了尺寸、形状、电荷和组成对远红外多环芳烃光谱的影响。远红外线也是所谓的“鼓面”模式和其他涉及汽车骨架整体低阶弯曲振动的分子振动的领域。与鼓一样，这些是分子和形状特定的，有望成为特定多环芳烃的关键诊断。在这里，通过比较圆形(冕烯“家族”)和菱形(芘“家族”)多环芳烃分子的最低鼓面模式的频率来评估这些“鼓面”模式对大小和形状的敏感性。从这项研究中，得出了观察策略的一些结果。

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PAHs and the Universe

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