Springer Series in Materials Science

This book is intended for graduate students and researchers and gives an illustrated account of the current understanding of the physics of plasticity. The plastic deformation of various types of crystals over a wide range of temperature is treated in terms of dynamical properties of dislocations. Special effects of plasticity, eg softening of metals at the superconducting transition and photoplastic effects in semiconducting crystals, are emphasized, as well as creep deformation in metals and composite materials.

This book presents a review of the solid-state chemistry of the materials behind the recent revolution in superconductivity research. Particular attention is paid to the main features that are necessary for the generation of high Tc superconductivity, for example, low dimensionality of the structure, a mixed valence of copper, hole delocalization and the role of lone-pair cations and alkaline earth elements. The relationships between the structures of the various oxide superconductors discovered so far are emphasized. Besides chemical and structural aspects, physical topics are included, such as electron transport properties in connection with oxygen nonstoichiometry and irradiation effects induced by neutrons, electrons and fast heavy ions. The diagrams and photographs in this book aim to simplify visualization of the structures and complement the clarity of the text. This textbook on solid-state chemistry, solid-state physics and materials science is intended for researchers and graduate students.