Electron correlation, metallization, and Fermi-level pinning at ultrathin K/Si(111) interfaces.

Abstract

In this paper we present a detailed photoemission study of the K/Si(111)7[times]7 and K/Si(111)([radical]3 [times] [radical]3 )[ital R]30[degree]-B interfaces. Angle-resolved valence-band spectroscopy reveals the presence of an almost dispersionless interface state [ital below] [ital E][sub [ital F]]. Both interfaces are clearly nonmetallic at room-temperature saturation coverage. We critically address the issues of charge transfer and Fermi-level pinning by a detailed analysis of the K 3[ital p] and Si 2[ital p] core-level spectra. We conclude that, up to saturation coverage, correlation effects determine the electronic properties of these interfaces. Metallization occurs during the development of the second layer at cryogenic temperatures.