PAH-related Very Small Grains in Photodissociation Regions: Implications from Molecular Simulations

PAHs and the Universe Pub Date : 2011-03-01 DOI:10.1051/EAS/1146024

M. Rapacioli, F. Spiegelman, Baptiste Joalland, Aude Simon, André Mirtschink, C. Joblin, J. Montillaud, Olivier Berné, Dahbia Talbi

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Abstract

The analysis of mid-IR emission suggests that a population of PAH-related very small grains containing a few hundreds of atoms are present in the deep regions of molecular clouds, although no specific species has been identified yet. In this review, we discuss several candidates for these grains: neutral and ionised PAH clusters and complexes of PAHs with Si atoms. The theoretical modelling of the properties of such molecular complexes or nanograins is a challenging task. We first present an overview of quantum chemistry derived models which can be efficiently used on-the-fly in extensive sampling of the potential energy surfaces, as required by structural optimization, classical molecular dynamics or Monte Carlo algorithms. From the simulations, various observables can be determined, such as the binding energies, finite temperature IR spectra, nucleation and evaporation rates. We discuss the relevance of those candidates in the molecular clouds photodissociation regions and propose constrains and perspectives for the nature and size of those very small grains.

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光解区域中与多环芳烃相关的小颗粒:来自分子模拟的启示

对中红外辐射的分析表明，在分子云的深处存在着一群与多环芳烃相关的含有几百个原子的非常小的颗粒，尽管还没有确定具体的种类。在这篇综述中，我们讨论了这些颗粒的几种候选:中性和电离的多环芳烃簇和多环芳烃与Si原子的配合物。这种分子复合物或纳米颗粒性质的理论建模是一项具有挑战性的任务。我们首先概述了量子化学衍生模型，这些模型可以有效地用于动态的势能表面的广泛采样，如结构优化，经典分子动力学或蒙特卡罗算法所要求的。通过模拟，可以确定各种观测值，如结合能、有限温度红外光谱、成核速率和蒸发速率。我们讨论了这些候选者在分子云光解区域的相关性，并提出了这些非常小的颗粒的性质和大小的限制和观点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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