Add to ORKGThe first stage of formation of the CaF2-Si(111) and Ca-Si(111) interfaces is studied through the employment of the surface linear-muffin-tin-orbital approach in the atomic-sphere approximation. The interfaces are simulated by monolayers of F-Ca and Ca on Si(111), respectively. Both valence- and core-electron states have been calculated: their analysis gives important information about the nature of the Ca-Si and Ca-F bonds. These results are successfully compared with the available experimental data. The importance of considering the Madelung contribution in the interpretation of surface-core-level shifts is pointed out
ABSTRACT The linear muffin-tin orbitals method in the atomic-sphere approximation is employed to inv...
We present first principle calculations of ultrathin silicon (111) layers embedded in CaF2, a lattic...
The joint use of metastable deexcitation spectroscopy and angle resolved ultraviolet photoemission g...
The first stage of formation of the CaF2-Si(111) and Ca-Si(111) interfaces is studied through the em...
The insulator-semiconductor CaF2-Si(111) interface is studied in the first stages of formation. The...
The surface linear muffin-tin method in the atomic-sphere approximation (SLMTO-ASA) is applied to st...
URL:http://link.aps.org/doi/10.1103/PhysRevB.44.8880 DOI:10.1103/PhysRevB.44.8880The electronic str...
The surface linear muffin-tin method in the atomic-sphere approximation, is presented and applied to...
The electronic properties of ultra-thin Si layers have been investigated. Using the linear muffin ti...
The electronic properties of ultra-thin Si layers have been investigated. Using the linear muffin ti...
Ab initio calculations, based on pseudopotentials and density functional theory, have been performed...
We investigate the CaF1/Si(111) interface using a combination of high-resolution scanning tunnelling...
The electronic structure of the Ca/Si(111)-(3×2) surface has been investigated by angle-resolved pho...
We have investigated the electronic structure of the Ca/Si(111)-(2×1) surface using angle-resolved p...
We review the theoretical studies on the reactive interfaces between silicon and transition metals. ...
ABSTRACT The linear muffin-tin orbitals method in the atomic-sphere approximation is employed to inv...
We present first principle calculations of ultrathin silicon (111) layers embedded in CaF2, a lattic...
The joint use of metastable deexcitation spectroscopy and angle resolved ultraviolet photoemission g...
The first stage of formation of the CaF2-Si(111) and Ca-Si(111) interfaces is studied through the em...
The insulator-semiconductor CaF2-Si(111) interface is studied in the first stages of formation. The...
The surface linear muffin-tin method in the atomic-sphere approximation (SLMTO-ASA) is applied to st...
URL:http://link.aps.org/doi/10.1103/PhysRevB.44.8880 DOI:10.1103/PhysRevB.44.8880The electronic str...
The surface linear muffin-tin method in the atomic-sphere approximation, is presented and applied to...
The electronic properties of ultra-thin Si layers have been investigated. Using the linear muffin ti...
The electronic properties of ultra-thin Si layers have been investigated. Using the linear muffin ti...
Ab initio calculations, based on pseudopotentials and density functional theory, have been performed...
We investigate the CaF1/Si(111) interface using a combination of high-resolution scanning tunnelling...
The electronic structure of the Ca/Si(111)-(3×2) surface has been investigated by angle-resolved pho...
We have investigated the electronic structure of the Ca/Si(111)-(2×1) surface using angle-resolved p...
We review the theoretical studies on the reactive interfaces between silicon and transition metals. ...
ABSTRACT The linear muffin-tin orbitals method in the atomic-sphere approximation is employed to inv...
We present first principle calculations of ultrathin silicon (111) layers embedded in CaF2, a lattic...
The joint use of metastable deexcitation spectroscopy and angle resolved ultraviolet photoemission g...