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This book containing 30 articles written by highly reputed experts is dedicated to K. Alex Müller on the occasion of his 80th birthday. The contributions reflect the major research areas of K. Alex Müller which he activated in high temperature superconductivity and phase transitions. They are theoretical as well as experimental ones and focus mainly on high temperature superconductivity. A smaller part deals with ferroelectricity and their applications. Also in this field there have recently been major break throughs experimentally as well as theoretically which will be addressed by the invited authors.
During the scientific career of K. Alex Müller he made major advances in the understanding of ferroelectricity, which used to be his major research field. The discovery of superconductivity in cuprates for which he received together with J. Georg Bednorz the Nobel Prize in 1987 has not diminished his interest in this area, but has enlarged his activities considerably.
The invited contributing authors of the book are representatives of novel approaches to enlarge the understanding of the complexity of transition metal oxides Especially lattice effects which have been ignored for a long time are addressed in detail Includes supplementary material: sn.pub/extras
Résumé
This book presents theoretical as well as experimental articles focused on recent new results in high temperature superconductivity. All contributors are high ranking scientists who have done major work to enhance the understanding of this phenomenon. A few articles deal with ferroelectricity and its applications. The book is dedicated to Prof. Dr. K. Alex Müller on his 80th birthday. During his scientific career he made major advances in the understanding of ferroelectricity.
Contenu
Superlight Small Bipolarons: A Route to Room Temperature Superconductivity.- Mott Limit in High-T c Cuprates.- Perovskites and Their New Role in Oxide Electronics.- Van Hove Scenario for High T c Superconductors.- Possible JahnTeller Effect and Strong ElectronPhonon Coupling in Beryllium Hydride.- The Competing Interactions in Multiferroics and Their Possible Implications for HTSs.- Site-Selective Oxygen-Isotope Exchange in YBa2Cu3O7?x .- Coexistence of OrderDisorder and Displacive Behavior of KH2PO4 and Analogs from Electron Paramagnetic Resonance.- The High T c Cuprates as Nanoscale Inhomogeneous Superconductors.- Essential Role of the Lattice in the Mechanism of High Temperature Superconductivity.- Shared Fascinations.- Admixture of an s-Wave Component to the d-Wave Gap Symmetry in High-Temperature Superconductors.- Electronic Inhomogeneities and Pairing from Unscreened Interactions in High-T c Superconductors.- Interplay of Jahn-Teller Physics and Mott Physics in Cuprates.- 20 years High Pressure Materials Synthesis Group Activity After Discovery of High-T c Superconductors.- Two-Gap Superconductivity in the Cuprate Superconductor La1.83Sr0.17CuO4.- Skyrmions in Lightly Doped Cuprates?.- Lone Pairs, Bipolarons and Superconductivity in Tellurium.- Carbon Based Superconductors.- Band Renormalization Effect in Bi2Sr2Ca2Cu3O10+? .- How Large is the Intrinsic Flux Noise of a Magnetic Flux Quantum, of Half a Flux Quantum and of a Vortex-Free Superconductor?.- Lattice and Magnetic Excitations in Relation to Pairing and the Formation of JahnTeller Polaron Textures in Cuprates.- Lattice Effects in High-Temperature Superconducting Cuprates Revealed by X-ray Absorption Spectroscopy.- Specific Heat of Na0.3CoO2??H2O, a Novel Superconductor withStructural and Electronic Similarities to the High-T c Cuprates.- Quantum Superconductor-Metal Transition in Al, C doped MgB2 and Overdoped Cuprates?.- Ferroelectric-on-Superconductor Devices.- Electronic Phase Separation and Unusual Isotope Effects in La2?x Sr x CuO4 Observed by Electron Paramagnetic Resonance.- Some Science History with a Mutual Connection.- Reminiscences of Collaboration in 1986.- Coupled Order Parameters in Magneto-Ferrolectrics.