Fragmentation, Reaction and Photodetachment of Mass Separated Cluster Ions. In: Benedek G, Martin TP, Pacchioni G, editors. Elemental and Molecular Clusters. Berlin: Springer Berlin Heidelberg; 1988. pp. 230-53. [DOI: 10.1007/978-3-642-73501-1_11]

The properties of deposited metal clusters generated by laser evaporation

Metal clusters have been produced using a laser evaporation source. A Nd-YAG laser beam focused onto a solid silver rod was used to evaporate the material, which was then cooled to form clusters with the help of a pulsed high pressure He beam. TOF mass spectra of these clusters reveal a strong occurrence of small and medium sized clusters (n less than 100). Clusters were also deposited onto grid supported thin layers of carbon-films which were investigated by transmission electron microscopy. Very high resolution pictures of these grids were used to analyze the size distribution and the structure of the deposited clusters. The diffraction pattern caused by crystalline structure of the clusters reveal 3- and 5-fold symmetries besides the pattern reflecting the fcc bulk structure. This can be explained in terms of icosahedron and cuboctahedron type clusters deposited on the surface of the carbon layer. There is strong evidence that part of these cluster geometries had already been formed before the deposition process. The non-linear dependence of the cluster size and the cluster density on the generating conditions is discussed.