High translational energy release in H2 (D2) associative desorption from H (D) chemisorbed on C(0001).
- Resource Type
- Article
- Authors
- Baouche, S.; Gamborg, G.; Petrunin, V. V.; Luntz, A. C.; Baurichter, A.; Hornekær, L.
- Source
- Journal of Chemical Physics. 8/28/2006, Vol. 125 Issue 8, p084712. 7p. 1 Diagram, 3 Graphs.
- Subject
- *ELECTRON-stimulated desorption
*CHEMISORPTION
*DENSITY functionals
*HYDROGEN
*DEUTERIUM
*THERMAL expansion
- Language
- ISSN
- 0021-9606
Highly energetic translational energy distributions are reported for hydrogen and deuterium molecules desorbing associatively from the atomic chemisorption states on highly oriented pyrolytic graphite (HOPG). Laser assisted associative desorption is used to measure the time of flight of molecules desorbing from a hydrogen (deuterium) saturated HOPG surface produced by atomic exposure from a thermal atom source at around 2100 K. The translational energy distributions normal to the surface are very broad, from ∼0.5 to ∼3 eV, with a peak at ∼1.3 eV. The highest translational energy measured is close to the theoretically predicted barrier height. The angular distribution of the desorbing molecules is sharply peaked along the surface normal and is consistent with thermal broadening contributing to energy release parallel to the surface. All results are in qualitative agreement with recent density functional theory calculations suggesting a lowest energy para-type dimer recombination path. [ABSTRACT FROM AUTHOR]