Nanostructured europium oxide thin films deposited by pulsed laser ablation of a metallic target in a He buffer atmosphere

Nanostrucured europium oxide and hydroxide films were obtained by pulsed Nd:YAG (532 nm) laser ablation of a europium metallic target, in the presence of a 1 mbar helium buffer atmosphere. Both the produced film and the ambient plasma were characterized. The plasma was monitored by an electrostatic...

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Veröffentlicht in:Journal of Vacuum Science and Technology. A, International Journal Devoted to Vacuum, Surfaces, and Films International Journal Devoted to Vacuum, Surfaces, and Films, 2010-09, Vol.28 (5), p.1092-1098
Hauptverfasser: Luna, H., Franceschini, D. F., Prioli, R., Guimarães, R. B., Sanchez, C. M., Canal, G. P., Barbosa, M. D. L., Galvão, R. M. O.
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Sprache:eng
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Zusammenfassung:Nanostrucured europium oxide and hydroxide films were obtained by pulsed Nd:YAG (532 nm) laser ablation of a europium metallic target, in the presence of a 1 mbar helium buffer atmosphere. Both the produced film and the ambient plasma were characterized. The plasma was monitored by an electrostatic probe, for plume expansion in vacuum or in the presence of the buffer atmosphere. The time evolution of the ion saturation current was obtained for several probe to substrate distances. The results show the splitting of the plume into two velocity groups, being the lower velocity profile associated with metal cluster formation within the plume. The films were obtained in the presence of helium atmosphere, for several target-to-substrate distances. They were analyzed by Rutherford backscattering spectrometry, x-ray diffraction, and atomic force microscopy, for as-deposited and 600   ° C treated-in-air samples. The results show that the as-deposited samples are amorphous and have chemical composition compatible with europium hydroxide. The thermally treated samples show x-ray diffraction peaks of Eu 2 O 3 , with chemical composition showing excess oxygen. Film nanostructuring was shown to be strongly correlated with cluster formation, as shown by velocity splitting in probe current versus time plots.
ISSN:0734-2101
1553-1813
1520-8559
DOI:10.1116/1.3457784