The electronic band structure of Ag films deposited on two quasiperiodic templates has been explored by angle-resolved photoemission. Direct observation of sp-derived quantum well states in the metallic layers confirms the mechanism of electronic growth suggested for related systems, but points towards a symmetry driven process of electron localization, rather than to the role of the substrate pseudogap as a confining barrier. Furthermore, the in-plane free-electronlike character of the Ag levels shows that rotational disorder can coexist with band dispersion in multidomain film structures.
Quantum size effects arising from incompatible point-group symmetries: Angle-resolved photoemission study
Moras P;Ferrari L;Carbone C
2006
Abstract
The electronic band structure of Ag films deposited on two quasiperiodic templates has been explored by angle-resolved photoemission. Direct observation of sp-derived quantum well states in the metallic layers confirms the mechanism of electronic growth suggested for related systems, but points towards a symmetry driven process of electron localization, rather than to the role of the substrate pseudogap as a confining barrier. Furthermore, the in-plane free-electronlike character of the Ag levels shows that rotational disorder can coexist with band dispersion in multidomain film structures.File in questo prodotto:
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