Abstract

The rotational alignment of the laser-induced non-thermal desorption of CO adsorbed on an epitaxially grown film of Cr 2O 3(0001) has been studied using 193 nm (6.4 eV) laser light and a (1 + 1′)-REMPI technique. At low rotational quantum numbers J the molecules desorb like a ‘helicopter’ ( J- vector perpendicular to the surface) while at high J-values a ‘cartwheel’ like motion is preferred ( J- vector parallel to the surface). CO is adsorbed in a flat geometry as a single species. The resulting angular momentum alignment in the laser desorption is interpreted qualitatively as a sum of effects due to corrugation of the surface in the initial state and a change of the adsorption geometry in the intermediate state before desorption.

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