Electronic structure and trilayer growth of indium films on Si(111): A photoemission study

Y. Liu, T. Miller, T. C. Chiang

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Abstract

We report on the preferred trilayer growth of indium films on Si(111) studied by angle-resolved photoemission spectroscopy. By employing an interfactant and optimized annealing conditions, the kinetic constraint on the In atoms due to the substrate is greatly reduced and electronic growth-where film morphology is controlled by the quantized electronic structure of the film-can be achieved at low coverage. Our photoemission spectra reveal that films of 4 ML (monolayers) and 7 ML thicknesses are energetically favored due to a lower surface energy, as confirmed by theoretical calculations. A detailed comparison of the photoemission spectra between In films grown on the In- √3×√3/Si(111) surface and those on the Si(111) 7×7 surface shows that the √3×√3 interfactant is a better template for growing In films at low coverage and effectively reduces the electronic coupling between the film and the substrate. In addition, the observed band structures of In films are in reasonable agreement with first-principles calculations and suggest that In films grown on the √3×√3 interfactant might already be close to the bulk-like body-centered tetragonal structure at around 10ML.

Original languageEnglish
Article number365302
JournalJournal of Physics Condensed Matter
Volume23
Issue number36
DOIs
StatePublished - Sep 14 2011
Externally publishedYes

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