Abstract

The convergence of the cluster model with respect to excitation energies, ionization potentials and hydrogen chemisorption energy in the four-fold hollow site of the Ni(100) surface is studied for a sequence of cluster models from Ni5 up to Ni181. For the largest, Ni481, cluster studied, only the structure of the occupied levels for one state is obtained. The concept of bond-preparation is found to be essential for the evaluation of chemisorption energies also for clusters with more than 100 atoms. The cluster excitation energies show a slow decrease such that even for Ni181 the step between the lower excited states is still 0.1–0.2 eV. The effect ofp-functions on surrounding cluster atoms is found to be 3–4 kcal/mol independent of cluster-size. The direct SCF program DISCO was parallelized using the TCGMSG toolkit in order to perform the calculations. The easy strategy utilized is analysed and exhaustive timings on the Alliant Campus/800 MPP system with 200 CPU's are presented.

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