Electron spectroscopies applied to low dimensional materials

This volume, aimed at researchers in condensed matter physics and materials science, reviews recent developments in the application of electron spectroscopies to a range of low-dimensional materials. In adopting as a common theme the techniques rather than specific materials, the volume amply demonstrates the effectiveness of electron spectroscopies extracting information on solids by their application to a range of phenomena in materials as disparate as high-temperature superconductors, polymeric materials, and charge density wave systems. In doing so, some similarities in the behaviour of these markedly different materials are also addressed.

Preface. Aspects on Direct and Inverse Photoemission Studies of Layered Transition Metal Dichalcogenides, L. Kipp, M. Skibowski. Photoemission From Intercalated Transition Metal Dichalcogenides, H.I. Starnberg, et al. Electronic Structure From Core Level Lineshapes in Charge Density Wave and Intercalate Systems, H.P. Hughes, J.A. Scarfe. Unoccuppied Band Structure of Layered Materials by Very-Low-Energy Electron Diffraction: Implications in Photoemission, V.N. Strocov. High-Resolution Photoemission Studies of Low-Dimensional Systems, M. Grioni, J. Voit. Photoelectron Spectroscopy of Low-Dimensional Organic Systems, N. Johansson, W.R. Salaneck. Electronic Properties of Van der Waals-Epitaxy Films and Interfaces, W. Jaegermann, et al. Scanning Tunnelling Spectroscopy of Layered Cuprates and Transition Metal Chalcogenides, T. Hasegawa, et al. Electronic Band Structure of Layered Ruthenates, A.V. Puchkov, Z.-X. Shen. Index.