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Direct observation of electron dynamics in the attosecond domain

A. Föhlisch, P. Feulner, F. Hennies, A. Fink, D. Menzel, D. Sanchez-Portal, P. M. Echenique and W. Wurth ()
Additional contact information
A. Föhlisch: Universität Hamburg
P. Feulner: Technische Universität München
F. Hennies: Universität Hamburg
A. Fink: Technische Universität München
D. Menzel: Technische Universität München
D. Sanchez-Portal: Universidad del País Vasco
P. M. Echenique: Universidad del País Vasco
W. Wurth: Universität Hamburg

Nature, 2005, vol. 436, issue 7049, 373-376

Abstract: Abstract Dynamical processes are commonly investigated using laser pump–probe experiments, with a pump pulse exciting the system of interest and a second probe pulse tracking its temporal evolution as a function of the delay between the pulses1,2,3,4,5,6. Because the time resolution attainable in such experiments depends on the temporal definition of the laser pulses, pulse compression to 200 attoseconds (1 as = 10-18 s) is a promising recent development. These ultrafast pulses have been fully characterized7, and used to directly measure light waves8 and electronic relaxation in free atoms2,3,4. But attosecond pulses can only be realized in the extreme ultraviolet and X-ray regime; in contrast, the optical laser pulses typically used for experiments on complex systems last several femtoseconds (1 fs = 10-15 s)1,5,6. Here we monitor the dynamics of ultrafast electron transfer—a process important in photo- and electrochemistry and used in solid-state solar cells, molecular electronics and single-electron devices—on attosecond timescales using core-hole spectroscopy. We push the method, which uses the lifetime of a core electron hole as an internal reference clock for following dynamic processes9,10,11,12,13,14,15,16,17,18,19, into the attosecond regime by focusing on short-lived holes with initial and final states in the same electronic shell. This allows us to show that electron transfer from an adsorbed sulphur atom to a ruthenium surface proceeds in about 320 as.

Date: 2005
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DOI: 10.1038/nature03833

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