Vibrationally promoted electron emission from low work-function metal surfaces

• Published in: The Journal of chemical physics Vol. 124; no. 6; p. 64702
• Main Authors: White, Jason D, Chen, Jun, Matsiev, Daniel, Auerbach, Daniel J, Wodtke, Alec M
• Format: Journal Article
• Language: English
• Published: United States 14.02.2006
• ISSN: 0021-9606
• DOI: 10.1063/1.2166360

We observe electron emission when vibrationally excited NO molecules with vibrational state v, in the range of 9 < or = v < or =18, are scattered from a Cs-dosed Au surface. The quantum efficiency increases strongly with v, increasing up to 10(-2) electrons per NO (v) collision, a value several orders of magnitude larger than that observed in experiments with similar molecules in the ground vibrational state. The electron emission signal, as a function of v, has a threshold where the vibrational excitation energy slightly exceeds the surface work function. This threshold behavior strongly suggests that we are observing the direct conversion of NO vibrational energy into electron kinetic energy. Several potential mechanisms for the observed electron emission are explored, including (1) vibrational autodetachment, (2) an Auger-type two-electron process, and (3) vibrationally promoted dissociation. The results of this work provide direct evidence for nonadiabatic energy-transfer events associated with large amplitude vibrational motion at metal surfaces.