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Laser-Induced Electron Tunneling and Diffraction
M. Meckel ,
D. Comtois ,
D. Zeidler ,
A. Staudte ,
D. Pavicic ,
H. C. Bandulet ,
H. Pepin ,
J. C. Kieffer ,
R. Dorner ,
D. M. Villeneuve ,
P. B. Corkum
June 13 2008
June 13 2008
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Abstract
Molecular structure is usually determined by measuring the diffraction pattern the
molecule impresses on x-rays or electrons. We used a laser field to extract electrons
from the molecule itself, accelerate them, and in some cases force them to recollide
with and diffract from the parent ion, all within a fraction of a laser period. Here,
we show that the momentum distribution of the extracted electron carries the fingerprint
of the highest occupied molecular orbital, whereas the elastically scattered electrons
reveal the position of the nuclear components of the molecule. Thus, in one comprehensive
technology, the photoelectrons give detailed information about the electronic orbital
and the position of the nuclei.
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