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Phase transition approach to high temperature superconductivity : universal properties of cuprate superconductors /

The discovery of superconductivity at 30 K by Bednorz and Müller in 1986 ignited an explosion of interest in high temperature superconductivity. The initial development rapidly evolved into an intensive worldwide research effort - which still persists after more than a decade - to understand the ph...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Schneider, T. (Toni)
Otros Autores: Singer, J. M.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : River Edge, NJ : Imperial College Press ; Distributed by World Scientific Pub. Co., ©2000.
Temas:
Acceso en línea:Texto completo

MARC

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100 1 |a Schneider, T.  |q (Toni) 
245 1 0 |a Phase transition approach to high temperature superconductivity :  |b universal properties of cuprate superconductors /  |c T. Schneider & J.M. Singer. 
260 |a London :  |b Imperial College Press ;  |a River Edge, NJ :  |b Distributed by World Scientific Pub. Co.,  |c ©2000. 
300 |a 1 online resource (x, 432 pages) :  |b illustrations 
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504 |a Includes bibliographical references (pages 411-426) and index. 
588 0 |a Print version record. 
505 0 |a 1. Introduction. 1.1. Cuprate superconductors. 1.2. Universal critical properties of continuous phase transitions. 1.3. Finite size effect and corrections to scaling -- 2. Ginzburg -- Landau phenomenology. 2.1. London phenomenology. 2.2. Ginzburg -- Landau functional. 2.3. Mean-field treatment. 2.4. Flux quantization. 2.5. London model and first flux penetration field. 2.6. Effective mass anisotropy -- 3. Gaussian thermal fluctuations. 3.1. Gaussian fluctuations around the mean field solution. 3.2. Gaussian order parameter fluctuations. 3.3. Gaussian vector potential fluctuations. 3.4. Relevance of vector potential fluctuations. 3.5. Helicity modulus. 3.6. Effective mass anisotropy. 3.7. Fluctuation induced diamagnetism -- 4. Superfluidity and the n-vector model. 4.1. Ideal Bose gas. 4.2. Charged Bose gas subjected to a magnetic field. 4.3. Weakly interacting Bose gas. 4.4. Hydrodynamic approach. 4.5. The n-vector model -- 5. Universality and scaling theory of classical critical phenomena at finite temperature. 5.1. Static critical phenomena in isotropic systems. 5.2. Superconductors with effective mass anisotropy. 5.3. Dimensional analysis. 5.4. Implications of the universal critical amplitude relations -- 6. Experimental evidence for classical critical behavior. 6.1. Critical behavior close to optimum doping. 6.2. Doping dependence of the critical behavior. 6.3. Evidence for dynamic scaling. 6.4. Vortex glass to vortex fluid transition. 6.5. The (H, T) phase diagram of extreme type II superconductors emerging from Monte Carlo simulations -- 7. Quantum phase transitions. 7.1. Scaling theory of quantum critical phenomena. 7.2. Quantum critical phenomena: conventional superconductors. 7.3. Quantum critical phenomena: cuprate superconductors -- 8. Implications. 8.1. Interlayer tunneling model. 8.2. Symmetry of the order parameter. 8.3. Suppression of the transition temperature due to dimensional crossover and quantum fluctuations. 8.4. Pseudogap features. 8.5. Relationship between low frequency conductivity and zero temperature penetration depth. 8.6. Doping and pressure dependences of critical amplitudes. 8.7. Doping dependence of isotope and pressure coefficients. 8.8. Bose gas approach. 8.9. Effective pair mass. 8.10. Emerging phase diagrams. 
520 |a The discovery of superconductivity at 30 K by Bednorz and Müller in 1986 ignited an explosion of interest in high temperature superconductivity. The initial development rapidly evolved into an intensive worldwide research effort - which still persists after more than a decade - to understand the phenomenon of cuprate superconductivity, to search for ways to raise the transition temperature and to produce materials which have the potential for technological applications. During the past decade of research on this subject, significant progress has been made on both the fundamental science and technological application fronts. A great deal of experimental data is now available on the cuprates, and various properties have been well characterized using high quality single crystals and thin films. Despite this enormous research effort, however, the underlying mechanisms responsible for superconductivity in the cuprates are still open to question. This book offers an understanding from the phase transition point of view, surveys and identifies thermal and quantum fluctuation effects, identifies material-independent universal properties and provides constraints for the microscopic description of the various phenomena. The text is presented in a format suitable for use in a graduate level course. 
590 |a eBooks on EBSCOhost  |b EBSCO eBook Subscription Academic Collection - Worldwide 
650 0 |a High temperature superconductivity. 
650 0 |a Copper oxide superconductors. 
650 0 |a Semiconductors. 
650 0 |a Superconductivity. 
650 2 |a Semiconductors 
650 6 |a Supraconducteurs à base d'oxyde de cuivre. 
650 6 |a Semi-conducteurs. 
650 6 |a Supraconductivité. 
650 6 |a Supraconductivité à hautes températures. 
650 7 |a semiconductor.  |2 aat 
650 7 |a TECHNOLOGY & ENGINEERING  |x Superconductors & Superconductivity.  |2 bisacsh 
650 7 |a Superconductivity  |2 fast 
650 7 |a Copper oxide superconductors  |2 fast 
650 7 |a High temperature superconductivity  |2 fast 
650 7 |a Semiconductors  |2 fast 
650 7 |a Cuprate  |2 gnd 
650 7 |a Hochtemperatursupraleiter  |2 gnd 
650 7 |a Hochtemperatursupraleitung  |2 gnd 
650 7 |a Kritisches Phänomen  |2 gnd 
650 7 |a Phasenumwandlung  |2 gnd 
700 1 |a Singer, J. M. 
776 0 8 |i Print version:  |a Schneider, T. (Toni).  |t Phase transition approach to high temperature superconductivity.  |d London : Imperial College Press ; River Edge, NJ : Distributed by World Scientific Pub. Co., ©2000  |z 1860942415  |w (DLC) 2004295078  |w (OCoLC)44737297 
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