Molecular desorption induced by heavy particle bombardment of solids

Barbara J. Garrison
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引用次数: 27

Abstract

A classical dynamics model is used to investigate nuclear motion in solids due to bombardment by energetic atoms and ions. Of interest are the mechanisms of ejection and cluster formation both of elemental species such as Nin and Arn and molecular species where we have predicted intact ejection of benzene-C6H6, pyridine-C5H5N, napthalene-C10H8, biphenyl-C12H10 and coronene-C24H12. The results presented here show that the energy distributions of the parent molecular species, e.g. benzene, are narrower than those of atomic species, even though the ejection processes in both cases arise from energetic nuclear collisions. The bonding geometry also influences the ejection yield and angular distribution. The specific case of π-bonded and σ-bonded pyridine on a metal surface is discussed with comparisons between the calculated results and experimental data. These calculations provide a means of interpreting SIMS, FABMS and possibly even PDMS experimental data.

重粒子轰击固体引起的分子解吸
用经典动力学模型研究了高能原子和离子轰击固体中的核运动。我们感兴趣的是元素种(如Nin和Arn)和分子种(我们预测了苯- c6h6、吡啶- c5h5n、萘- c10h8、联苯- c12h10和冠烯- c24h12的完整喷射)的喷射和簇形成机制。本文的结果表明,母体分子(如苯)的能量分布比原子的窄,尽管这两种情况下的抛射过程都是由高能核碰撞引起的。键合的几何形状也会影响弹射产率和角分布。讨论了π键和σ键吡啶在金属表面的具体情况,并将计算结果与实验数据进行了比较。这些计算提供了一种解释SIMS, FABMS甚至PDMS实验数据的方法。
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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