The self-consistent electronic properties of the epitaxial Si(111)-NiSi2(111) interfaces are computed for the experimentally observed A- and B-type interface structures. The densities of states projected at the different atomic sites and the two-dimensional band structure provide a detailed analysis of the electronic properties of the silicon-silicide interface. The Schottky-barrier height turns out to be dependent not only on the interface structure, but also on the interface relaxation distance. A critical analysis of existing results is also presented.
Ossicini, S., Bisi, O., Bertoni, C.m. (1990). Electronic structure of Si(111)-NiSi2(111) A-type and B-type interfaces. PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS, 42(9), 5735-5743 [10.1103/PhysRevB.42.5735].
Electronic structure of Si(111)-NiSi2(111) A-type and B-type interfaces
BERTONI, CARLO MARIA
1990-01-01
Abstract
The self-consistent electronic properties of the epitaxial Si(111)-NiSi2(111) interfaces are computed for the experimentally observed A- and B-type interface structures. The densities of states projected at the different atomic sites and the two-dimensional band structure provide a detailed analysis of the electronic properties of the silicon-silicide interface. The Schottky-barrier height turns out to be dependent not only on the interface structure, but also on the interface relaxation distance. A critical analysis of existing results is also presented.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
