Dữ liệu biên mục

High-Tc copper oxide superconductors and related novel materials : dedicated to Prof. K.A. Müller on the occasion of his 90th birthday
Loại tài liệu: Book
Mã tài liệu: 96640
Mã ngôn ngữ: en
Thông tin xuất bản: Springer
Tình trạng vật lý: 324 p.
Từ khóa: High temperature superconductivity;opper oxide superconductors;High temperature superconductors.
Danh mục: Vật lý
Năm xuất bản: 2017
Số sách còn lại: Không giới hạn
Thời gian mượn: Bạn chưa đăng nhập.
Tóm tắt theo nội dung: Authored by many of the world's leading experts on high-Tc superconductivity, this volume presents a panorama of ongoing research in the field, as well as insights into related multifunctional materials. The contributions cover many different and complementary aspects of the physics and materials challenges, with an emphasis on superconducting materials that have emerged since the discovery of the cuprate superconductors, for example pnictides, MgB2, H2S and other hydrides. Special attention is also paid to interface superconductivity. In addition to superconductors, the volume also addresses materials related to polar and multifunctional ground states, another class of materials that owes its discovery to Prof. Müller's ground-breaking research on SrTiO3.
Tóm tắt theo mục lục: Foreword; Contents; Chapter 1: Electronic Phase Separation and Electron-Phonon Coupling in Cuprate Superconductors; Prologue; Electronic Phase Separation in Cuprates: From Early Theories to Current Experiments; Charge Inhomogeneities and Electron-Phonon Coupling; Enhancement of the Electron-Phonon Vertex Due to Correlation Effects in the Limit of Small Momentum Transfer; Superconductivity Induced by Long Wavelength Optical Phonons; Conclusions; References; Chapter 2: The Search for Higher Tc in Houston; Interface-Induced Superconductivity; Layered Cuprate Superconductors with a Tc Above 164K.Hydrogen-Rich Molecular CompoundsOptimization of Multi-interaction in Multiferroics; References; Chapter 3: From Granular Superconductivity to High Tc; Tel Aviv, 1978; Alex Muller Learns and Teaches Superconductivity; Is There Anything Common to Granular Aluminum and the High Tc Oxides?; Granular Aluminum Is Not a Metal in the Conventional Sense; Conclusion; References; Chapter 4: Alex and the Origin of High-Temperature Superconductivity; Introduction; Lattice Effects; Iron-Pnictide Superconductors; Origin of HTSC; Role of the Mottness and AMF Order; Possible Mechanism of HTSC.Spin-Channel e-p CouplingReal-Space Polaronic Effect; Role of the Orbitals; Alex and HTSC; References; Chapter 5: Encounters with Alex; Early Days; Some Differences; Stockholm; Trondheim Again; Two on the Roof, in Pisa; Alex in Trondheim Again: Doctor Honoris Causa; Nobel Book and Followup; Chapter 6: The Barocaloric Effect: A Spin-off of the Discovery of High-Temperature Superconductivity; Introduction; The Barocaloric Effect (BCE); Basic Principles; Structurally Driven BCE; PrLaO3; PrxLa1-xNiO3; Magnetically Driven BCE; BCE in a Kondo System; Valence Driven BCE.Achievements in High-Temperature SuperconductivityInhomogeneous Materials Character; Oxygen and Copper Isotope Effects; Concluding Remarks; References; Chapter 7: Personal Reflections on High-Tc Superconductivity; To Alex Mueller on Turning 90; Chapter 8: NMR of Cuprate Superconductors: Recent Developments; Introduction; NMR and Cuprate Superconductors; Failure of the Single Fluid Description; Average Charge at Cu and O in the CuO2 Plane; Charge-Resolved Cuprate Phase Diagram; Charge and Spin Density Variations in the CuO2 Plane; Conclusion and Outlook; References.Chapter 9: Towards an Understanding of Hole SuperconductivityIntroduction; Holes in Condensed Matter Physics; Electron-Hole Asymmetric Polarons and Dynamic Hubbard Models; Hole Superconductivity in Materials; The Central Question in Superconductivity; Why Holes Are Not Like Electrons; How Holes Answer the Central Question in Superconductivity; Discussion; References; Chapter 10: Short Scale Phase Separation of Polarons; Introduction; Single Polaron in the Adiabatic Approximation; Ordering of Charged Polarons: Lattice Gas Model; Coulomb Frustrated First Order Phase Transition; Conclusion.
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