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With the discovery of high-temperature superconductors, research into polarons and bipolarons has attracted much attention. This book is the first standard reference to give a comprehensive view of the polaron and bipolaron theory of high-temperature superconductivity, one of the most significant discoveries in physics in the past decade. Scientists have also observed polarons and bipolarons in magnetic semiconductors and transition metal oxides. The thorough investigation of these nonsuperconducting materials has contributed greatly to our basic understanding of the physical properties of both polarons and bipolarons. This book contains a series of authoritative articles on the most advanced research on polarons and bipolarons in high-temperature superconductors and related materials. This book will be of great interest to researchers in condensed matter physics, and especially those working in the field of superconductivity.
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Quantum mechanics. Quantumfield theory --- Thermal properties of solids --- High temperature superconductors --- Superconductivity --- Supraconducteurs à hautes températures --- Supraconductivité --- High temperature superconductors. --- Superconductivity. --- Supraconducteurs à hautes températures --- Supraconductivité
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Superconductivity. --- High temperature superconductors. --- Supraconductivité --- Supraconducteurs à hautes températures --- Chemistry. --- Chemistry, inorganic. --- Inorganic Chemistry. --- Superconductivity, Superfluidity, Quantum Fluids. --- Superconductivity --- High temperature superconductors --- Inorganic Chemistry --- Physical & Theoretical Chemistry --- Chemistry --- Physical Sciences & Mathematics --- Inorganic chemistry --- Inorganic chemistry. --- Superconductors. --- Strongly Correlated Systems, Superconductivity. --- Electric conductivity --- Critical currents --- Superfluidity --- Physical sciences --- Superconducting materials --- Superconductive devices --- Cryoelectronics --- Electronics --- Solid state electronics --- Inorganic compounds --- Materials
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Quantum mechanics. Quantumfield theory --- High temperature superconductivity --- High temperature superconductors --- Supraconductivité à hautes températures --- Supraconducteurs à hautes températures --- Supraconductivité à hautes températures --- Supraconducteurs à hautes températures --- Oxygen --- Superconductors --- Chalcogens --- Nonmetals --- Photosynthetic oxygen evolution --- Materials at low temperatures --- High critical temperature superconductivity --- High Tc superconductivity --- Superconductivity --- Chemistry --- Conferences - Meetings --- Oxygène
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Photoionisation. --- Collisions (physique) --- Ions. --- Structure électronique. --- Supraconducteurs à hautes températures. --- Diffusion (physique) --- Physique de l'état solide. --- Rayons X. --- Photoionization --- Collisions (Physics) --- Diffusion --- X-rays --- Inner-shell ionization --- High-temperature superconductors --- Nuclear shell theory --- Ions --- Electronic structure --- Solid state physics --- Structure électronique. --- High temperature superconductors. --- Congresses. --- Supraconducteurs à hautes températures. --- Physique de l'état solide.
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The discovery of high temperature superconductors (HTS) in 1986 by two IBM scientists led to an unprecedented explosion of research and development efforts world-wide because of the significant potential for practical applications offered by these materials. However, the early euphoria created by the exciting prospects was dampened by the daunting task of fabricating these materials into useful forms with acceptable superconducting properties. Progress towards this goal has been hindered by many intrinsic materials problems, such as weak-links, flux-creep, and poor mechanical properties.
High temperature superconductors. --- Supraconducteurs à hautes températures --- Electrical Engineering --- Engineering - General --- Electrical & Computer Engineering --- Engineering & Applied Sciences --- Engineering. --- Physics. --- Magnetism. --- Magnetic materials. --- Materials science. --- Engineering, general. --- Characterization and Evaluation of Materials. --- Theoretical, Mathematical and Computational Physics. --- Magnetism, Magnetic Materials. --- Surfaces (Physics). --- Physics --- Surface chemistry --- Surfaces (Technology) --- Mathematical physics --- Electricity --- Magnetics --- Construction --- Industrial arts --- Technology --- Mathematical physics. --- Physical mathematics --- Material science --- Physical sciences --- Materials --- Mathematics --- Superconductors.
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The NMR probe has yielded a vast array of data for the high-Tc materials, corresponding to different compounds, ionic sites, and nuclear species, as well as to a wide variety of experimental conditions. Over the twenty years, since the discovery of superconducting cuprates, ongoing analysis and discussion of cuprate NMR data have resulted in a wealth of important insights into the physics of these exotic systems. The aims of this monograph are threefold. First, it reviews NMR methodology as it has been applied to the cuprate studies. This is addressed to NMR practitioners and to physics laypersons alike. Next, it presents a review of cuprate NMR measurements and the wide variety of phenomena which they represent. The third phase is to recount the theoretical model calculations and other proposals which have been put forward to account for these data. Parts two and three are presented in parallel, as there are many aspects to both topics, each with its own interesting history. There is, even twenty years on, a substantial level of current theoretical development underway on the topic of high-Tc. Thus, there are theoretical controversies to be addressed, notably that between the one and two-component pictures of NMR dynamics, which may not be resolved for some time to come. Further, even though one would have to say that the experimental picture is largely settled for high-Tc NMR studies, theoretical controversies may legitimately call for new, improved or more extensive data. There are also apparent conflicts between NMR and neutron scattering results. These must be addressed and rationalized very carefully. What remains in the end, then, is a snapshot of an ongoing enterprise, which is undoubtedly the grandest program ever undertaken under the rubric of condensed matter NMR studies.
High temperature superconductivity. --- High temperature superconductors --- Copper oxide superconductors --- Nuclear magnetic resonance. --- Supraconductivité à hautes températures --- Supraconducteurs à hautes températures --- Supraconducteurs à base d'oxyde de cuivre --- Résonance magnétique nucléaire --- Materials. --- Matériaux --- Copper oxide superconductors -- Materials. --- Electronic books. -- local. --- High temperature superconductors -- Materials. --- High temperature superconductivity --- Nuclear magnetic resonance --- Electricity & Magnetism --- Atomic Physics --- Physics --- Physical Sciences & Mathematics --- Materials --- Magnetic resonance, Nuclear --- NMR (Nuclear magnetic resonance) --- Nuclear spin resonance --- Resonance, Nuclear spin --- High critical temperature superconductivity --- High Tc superconductivity --- Physics. --- Condensed matter. --- Condensed Matter Physics. --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Matter --- Solids --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Magnetic resonance --- Nuclear spin --- Nuclear quadrupole resonance --- Materials at low temperatures --- Superconductors --- Superconductivity
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