)
contributing states. The interference observed
from the two conical intersection pathways provides a chemical analog
of Young's well-known double-slit experiment.Chemical
ˇ§double slitsˇ¨: Dynamical interference of photodissociation pathways of H2O
R. N. Dixon, D. W. Huang, X. F. Yang, S. Harich, J. J. Lin, and X. Yang
Science 285, 1249 (1999)
Photodissociation of water at a wavelength of 121.6 nanometers has been
investigated by using the H-atom Rydberg tagging technique. A
striking even-odd intensity oscillation was observed in the OH(X)
product rotational distribution. Model calculations attribute this
oscillation to an unusual dynamical interference brought about by two
dissociation pathways that pass through dissimilar conical
intersections of potential energy surfaces, but result in the same
products. The interference pattern and the OH product rotational
distribution are sensitive to the positions and energies of the
conical intersections, one with the atoms collinear as H-OH and the
other as H-HO. An accurate simulation of the observations would
provide a detailed test of global H2O potential energy surfaces
for the three ()
contributing states. The interference observed
from the two conical intersection pathways provides a chemical analog
of Young's well-known double-slit experiment.
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