Add to ORKGStimulated by the recent observation by LEED that well ordered graphite overlayers may be prepared by heating SiC crystals [1] we have used LEED, STM and UPS (hv = 20-140 eV) to study such layers and compared the photoemission spectra to those we obtain from a natural single crystal. Two results are of particular interest. One is that the overlayers give spectra having a quality well on par with those from the natural crystal. This means that the overlayers can be attractive as an alternative to natural crystals, which are inconveniently small for many experiments. The other result is that there are graphite states, which give quite narrow emission lines. One is due to the upper σ state at Γ and another to states near the Fermi level, which...
We demonstrate that the electron density of the light-populated image potential states in graphite r...
We demonstrate that the electron density of the light-populated image potential states in graphite r...
We demonstrate that the electron density of the light-populated image potential states in graphite r...
International audienceWe report a photoemission study on high-quality single-crystal graphite epitax...
International audienceWe report a photoemission study on high-quality single-crystal graphite epitax...
International audienceWe report a photoemission study on high-quality single-crystal graphite epitax...
International audienceWe report a photoemission study on high-quality single-crystal graphite epitax...
Ultra-thin graphite overlayers prepared by heating SiC crystals can give highly resolved valence ban...
[[abstract]]Photoemission spectroscopy is widely used to investigate metal clusters on inert substra...
The physical and electronic structure of the dispersed and (2×2) phases of K/graphite have been char...
The physical and electronic structure of the dispersed and (2×2) phases of K/graphite have been char...
peer reviewedThe low energy electron dispersion in graphite is measured by angle-resolved photoemiss...
We obtained the spectral function of the graphite H point using high resolution angle resolved photo...
We demonstrate that the electron density of the light-populated image potential states in graphite r...
We demonstrate that the electron density of the light-populated image potential states in graphite r...
We demonstrate that the electron density of the light-populated image potential states in graphite r...
We demonstrate that the electron density of the light-populated image potential states in graphite r...
We demonstrate that the electron density of the light-populated image potential states in graphite r...
International audienceWe report a photoemission study on high-quality single-crystal graphite epitax...
International audienceWe report a photoemission study on high-quality single-crystal graphite epitax...
International audienceWe report a photoemission study on high-quality single-crystal graphite epitax...
International audienceWe report a photoemission study on high-quality single-crystal graphite epitax...
Ultra-thin graphite overlayers prepared by heating SiC crystals can give highly resolved valence ban...
[[abstract]]Photoemission spectroscopy is widely used to investigate metal clusters on inert substra...
The physical and electronic structure of the dispersed and (2×2) phases of K/graphite have been char...
The physical and electronic structure of the dispersed and (2×2) phases of K/graphite have been char...
peer reviewedThe low energy electron dispersion in graphite is measured by angle-resolved photoemiss...
We obtained the spectral function of the graphite H point using high resolution angle resolved photo...
We demonstrate that the electron density of the light-populated image potential states in graphite r...
We demonstrate that the electron density of the light-populated image potential states in graphite r...
We demonstrate that the electron density of the light-populated image potential states in graphite r...
We demonstrate that the electron density of the light-populated image potential states in graphite r...
We demonstrate that the electron density of the light-populated image potential states in graphite r...