The change of the size distribution of An clusters induced by annealing was studied in situ by transmission electron microscopy. Starting from statistically distributed Au clusters on a thin amorphous carbon film, "islands" are formed within a few months storage at room temperature, which consist of An clusters with sizes < 4 nm embedded in a thin Au film. These islands cover originally areas with sizes around 25 x 70 nm(2). If the temperature is increased in the transmission electron microscope two different processes can be clearly distinguished that lead to the coarsening of the cluster size distribution: cluster coalescence and (contactless) Ostwald ripening. The degree and rate of the coarsening are found to depend on the underlying surface (An film or amorphous carbon) and the exposure to the high-flux high-energy electron beam, which can be estimated to lead to high-temperature excursions in a cluster on a 10(-12x) s time scale. The experimental findings are confirmed by Monte-Carlo simulations using the many-body Gupta potentials in order to calculate the Au/Au interaction. Moreover, the results of MC simulations suggest an electron-beam induced formation of a "quasi-two-dimensional gas" of small highly mobile Au species on the Au film, which promotes Ostwald ripening.

• 出版日期2006-2-1