金属表面吸附物岩心孔衰减动力学理论

H. Ueba
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引用次数: 0

摘要

对金属表面吸附物的岩心孔衰减动力学进行了比较研究。基于CO分子在Cu(llO)上化学吸附作为原型系统的现有实验结果,我们研究了通过各种新的为吸附剂开放的俄格通道的核心空穴衰变的基本过程,即交叉俄格跃迁和电子参与在核心空穴衰变或共振核心激发之前由基底转移的电荷产生的最初未占据的吸附层。计算了共振激发后的价态俄歇谱和去激发谱。这些光谱与直接价态光发射进行了比较,特别是与金属电荷转移屏蔽的单价空穴态进行了比较。共振核到结合(如CO分子的2Jr*)能级激发后的去激发谱中没有振荡卫星,以及筛选的最终态的直接光电发射或正常俄歇谱与共振激发俄歇谱之间的束缚能不匹配,从核心孔俄歇衰变前激发态的弛化过程中得到了解释。金属表面上吸附物的电子结构,不仅因为其本身的权利,而且因为对各种表面化学反应的微观机制有更深入的了解,已经通过各种表面电子能谱进行了研究,如占据态的核心(XPS)和价态(UPS)光电发射(PES),部分占据或未占据态的逆光电发射(IPS),和吸收(ABS)用于占据态和未占据态之间的电子跃迁。俄杰电子能谱(AES)通常用于探测表面或表面附近的化学物质,也被认为是确定吸附剂的能级和键构型的有用工具。Plummer等人在一篇综述文章中对不同金属表面上的CO分子作为原型系统进行了这些表面电子能谱的比较。在一系列的作品中……我们学习了ABS,
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Theory of Core Hole Decay Dynamics of Adsorbate on Metal Surfaces
A comparative study of a core hole decay dynamics is made for an adsorbate on a metal surface. On the basis of the available experimental results for a CO molecule chemisorbed on Cu(llO) as a prototype system, we investigate the elementary processes of the core hole decay via various new Auger channels open for adsorbates, i.e., the crossed Auger transition and the participation of an electron in the initially unoccupied level of the adsorbate created by charge transfer from the substrate before core hole decay or resonant core excitation. We calCulate the valence Auger spectrum and deexcitation spectrum following resonant excita­ tion. These spectra are compared with the direct valence photoemission, in particular with a single valence hole state screened by charge transfer from the metal. Absence of shake-up satellite in the deexcitation spectrum following resonant core to bound (e.g., 2Jr* of a CO molecule) level excitation and the mismatch of the binding energy of the screened final state between direct photoemission or normal Auger spectrum and resonantly excited Auger spectrum are explained in terms of the relaxation processes of the excited state before the Auger decay of the core hole. The electronic structures of the adsorbate on a metal surface, which is of eminent interest not only for its own right, but also for gaining deeper insight into the microscopic mechanisms of a wide variety of surface chemical reactions, have been studied by means of various surface electronic spectroscopies such as core (XPS) and valence (UPS) photoemission (PES) for the occupied states, inverse photoemission (IPS) for partially occupied or unoccupied states, and absorption (ABS) for the electronic transitions between the occupied and the unoccupied states. Auger elec­ tron spectroscopy (AES) commonly used to probe the chemical species at or near surfaces is also recognized as a useful tool to determine the energy levels and the bonding configurations of adsorbates, A comparison of these surface electron spectroscopies has been presented in a review article of Plummer et al. 1 ) for a CO molecule on various metal surfaces as a prototype system. In a series of works.. we have studied the ABS,
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