Shift and broadening of adsorbate vibrational modes

The shift and broadening of the vibrational frequency of the adsorbate on a metal surface are calculated on the basis of two different models. The first model is an anharmonic one which includes multiphonon processes to all order in first-order perturbation theory. We show that anharmonic damping du...

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Bibliographic Details
Published in:Surface science 1986-06, Vol.172 (1), p.31-46
Main Authors: Volokitin, A.I., Braun, O.M., Yakovlev, V.M.
Format: Article
Language:English
Subjects:
Chemistry
Exact sciences and technology
General and physical chemistry
Solid-gas interface
Surface physical chemistry
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Summary:The shift and broadening of the vibrational frequency of the adsorbate on a metal surface are calculated on the basis of two different models. The first model is an anharmonic one which includes multiphonon processes to all order in first-order perturbation theory. We show that anharmonic damping due to multiphonon processes is substantial for CO adsorbed on a Ni(100) surface and small for H adsorbed on a W(100) surface. At room temperature multiphonon processes with n > 2 are very important even in cases when the frequency of vibration of the adsorbate lies below twice the maximum phonon frequency of the substrate ( n is the order of the process). For the CNi stretching mode of top-bonded CO on Ni(100) our results are in accord with the experimental data. The second model is an electronic one which includes the electron-hole pair loss mechanism. We show that the observed shift and broadening of the CO stretching vibration mode for a CO molecule adsorbed on Cu(100) and for a H atom adsorbed on a W(100) surface can be explained on the basis of this model. Variation of the shift and broadening of the CO stretching mode with the distance from a CO molecule to Ni(111) surface are calculated.
ISSN:0039-6028
1879-2758
DOI:10.1016/0039-6028(86)90581-9