Superconducting State mechanisms and properties

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Bibliographische Detailangaben
Hauptverfasser:	Kresin, Vladimir Z. (VerfasserIn), Morawitz, Hans (VerfasserIn), Wolf, Stuart A. 1943- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford Oxford Univ. Press 2014
Ausgabe:	1. ed.
Schriftenreihe:	International series of monographs on physics 161
Schlagworte:	Supraleiter Supraleitung
Online-Zugang:	Inhaltsverzeichnis
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MARC


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Datensatz im Suchindex

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adam_text	Contents 1 Historical perspective 1 2 Electronic states, phonons, and electron-phonon interaction 5 2.1 Adiabatic approximation: Hamiltonian 5 2.2 Adiabatic approximation and non-adiabaticity: Born-Oppenheimer and crude approaches 6 2.3 Electron-phonon coupling 9 2.4 Electron-phonon interaction and renormalization of normal parameters 11 2.5 The Migdal theorem 15 2.6 Polaronic states 16 2.6.1 Concept 16 2.6.2 Dynamic polaron 17 3 Phonon mechanism 20 3.1 Superconductivity as a giant non-adiabatic phenomenon 20 3.2 The BCS model 21 3.3 Phonon mechanism: main equations 22 3.4 Critical temperature 26 3.4.1 Weak coupling 26 3.4.2 Intermediate coupling (λ < 1.5) 28 3.4.3 Coulomb interaction 29 3.4.4 Very strong coupling 31 3.4.5 The general case 33 3.4.6 About an upper limit of Tc 35 3.5 Properties of superconductors with strong coupling 36 3.6 The Van Hove scenario 39 3.7 Bipolarons: ВЕС versus BCS 39 3.8 Superconducting semiconductors 40 3.9 Polaronic effect and its impact on Tc 42 3.9.1 Double-well structure 42 3.9.2 Superconducting state 44 4 Electronic mechanisms 47 4.1 The Little model 47 4.2 Sandwich excitonic mechanism 50 4.3 Three-dimensional systems: electronic mechanism 50 4.4 Plasmons 52 4.4.1 Plasmons in layered systems: dispersion law and electronic sound 53 χ Contents 4.4.2 Plasmons in layered conductors: pairing 57 4.4.3 The 3D case: demons 58 5 Magnetic mechanism 59 5.1 Introduction 59 5.1.1 Localized versus itinerant aspects of the cuprates 60 5.2 Fermi liquid-based theories 62 5.2.1 The spin-bag model of Schrieffer, Wen, and Zhang (1989) 62 5.2.2 The t-J model (Emery, 1987; Zhang and Rice, 1988) 66 5.2.3 Two-dimensional Hubbard model studies by Monte Carlo techniques 70 5.2.4 Spiral phase of a doped quantum antiferromagnet (Shraiman and Siggia, 1988-89). 77 5.2.5 Slave bosons 82 5.3 Non-Fermi-liquid models 85 5.3.1 The resonant valence bond (RVB) model and its evolution 85 5.3.2 Anyon models and fractional statistics 86 5.4 Conclusions 87 6 Experimental methods: Spectroscopie 88 6.1 Tunneling spectroscopy 88 6.1.1 Experimental method 88 6.1.2 Energy gap and transition temperature 90 6.1.3 Inversion of the gap equation and oî2F{Q) 91 6.1.4 Electron-phonon coupling parameter λ 94 6.2 Scanning tunneling microscopy and spectroscopy 96 6.3 Infrared spectroscopy 97 6.4 Ultrasonic attenuation 99 6.5 Angle-resolved photoemission 100 6.6 Muon spin resonance (дЅИ) 100 6.6.1 /iSR studies of superconductivity 102 7 Multigap superconductivity 103 7.1 Multigap superconductivity: general picture 103 7.2 Critical temperature 104 7.3 Energy spectrum 105 7.4 Properties of two-gap superconductors 108 7.4.1 Penetration depth; surface resistance 108 7.4.2 Strong magnetic field: Ginzburg-Landau equations for a multigap superconductor 110 7.4.3 Heat capacity 111 7.4.4 Experimental data 111 7.5 Induced two-band superconductivity 112 7.6 Symmetry of the order parameter and multiband superconductor 113 Contents xi 8 Induced superconductivity: proximity effect 114 8.1 Proximity sandwich 114 8.2 Critical temperature 115 8.3 Proximity effect versus the two-gap model 119 8.4 Pair-breaking: gapless superconductivity 119 9 Isotope effect 122 9.1 General remarks 122 9.2 Coulomb pseudopotential 122 9.3 Multi-component lattice 123 9.4 Anharmonicity 123 9.5 Isotope effect in proximity systems 124 9.6 Magnetic impurities and isotope effect 125 9.7 Polaronic effect and isotope substitution 126 9.8 Penetration depth: isotopie dependence 128 10 Cuprate superconductors 131 10.1 History 131 10.2 Structure of the cuprates 132 10.3 Preparation of bulk and film cuprates 133 10.4 Properties of the cuprates 134 10.4.1 Phase diagram 134 10.4.2 Critical field Hc2 135 10.4.3 Two-gap spectrum 136 10.4.4 Symmetry of the order parameter 136 10.5 Isotope effect 138 10.5.1 Polaronic state 138 10.5.2 Isotopie dependence of the penetration depth 140 10.6 Mechanism of high Tc 140 10.7 Proposed experiment 145 11 Inhomogeneous superconductivity and the pseudogap state of novel superconductors 147 11.1 Pseudogap state: main properties 148 11.1.1 Anomalous diamagnetism above Tc 148 11.1.2 Energy gap 150 11.1.3 Isotope effect 152 11.1.4 Giant Josephson effect 152 11.1.5 Transport properties 153 11.2 Inhomogeneous state 154 11.2.1 Qualitative picture 154 11.2.2 The origin of inhomogeneity 155 11.2.3 Percolative transition 156 11.2.4 Inhomogeneity: experimental data 156 11.3 Energy scales 157 11.3.1 Highest-energy scale (T) 158 xii Contents 11.3.2 Diamagnetic transition (Γ) 158 11.3.3 Resistive transition ( Те) 159 11.4 Theory 159 11.4.1 General equations 160 11.4.2 Diamagnetism 160 11.4.3 Transport properties; giant Josephson effect 162 11.4.4 Isotope effect 166 11.5 Other systems 167 11.5.1 Borocarbides 167 11.5.2 Granular superconductors; Pb-j-Ag system 167 11.6 Ordering of dopants and potential for room-temperature superconductivity 168 11.7 Remarks 171 12 Manganites 172 12.1 Introduction 172 12.2 Electronic structure and doping 173 12.2.1 Structure 173 12.2.2 Magnetic order 170 12.2.3 Double-exchange mechanism 170 12.2.4 Colossal magnetoresistance (CMR) 177 12.3 Percolation phenomena 178 12.3.1 Low doping: transition to the ferromagnetic state at low temperatures 178 12.3.2 Percolation threshold 179 12.3.3 Increase in temperature and percolativo transition 180 12.3.4 Experimental data 181 12.3.5 Large doping 182 12.4 Main interactions: Hamiltonian 18.4 12.5 Ferromagnetic metallic state 184 12.5.1 Two-band spectrum 184 12.5.2 Heat capacity 186 12.5.3 Isotope substitution 187 12.5.4 Optical properties 189 12.6 Insulating phase 190 12.6.1 Parent compound 190 12.6.2 Low doping: polarons 191 12.7 Metallic A-phase: S-N-S Josephson effect 193 12.7.1 Magnetic structure 193 12.7.2 Josephson contact with the A-phase barrier 193 12.8 Discussion: manganites versus cuprates 195 13 Novel superconducting systems 197 13.1 Fe-based pnictide and chalcogenide superconductors 197 13.2 Magnesium diboride: MgB2 199 13.3 A-15 structure superconductors 201 Contents xiii 13.4 Granular superconductors 202 13.5 Sr2RuO4: a very novel superconductor 203 13.6 Ruthenium cuprates 204 13.7 Intercalated nitrides: self-supported superconductivity 205 14 Organic superconductivity 206 14.1 History * 206 14.2 Organic superconductors: structure, properties 207 14.3 Intercalated materials 210 14.4 Füllendes 212 14.5 Small-scale organic superconductivity 213 14.6 Pair correlation in aromatic molecules 214 15 Pairing in nanoclusters: nano-based superconducting tunneling networks 218 15.1 Clusters: shell structure 218 15.2 Pair correlation 220 15.2.1 Qualitative picture 220 15.2.2 Main equations: critical temperature 222 15.2.3 Energy spectrum; fluctuations 225 15.3 How to observe the phenomenon? 226 15.4 Cluster-based tunneling network: macroscopic superconductivity 227 15.5 Cluster crystals 228 Appendices 229 Appendix A: Diabatic representation 229 Appendix B: Dynamic Jahn-Teller effect 231 References 233 Index 255
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author	Kresin, Vladimir Z. Morawitz, Hans Wolf, Stuart A. 1943-
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spellingShingle	Kresin, Vladimir Z. Morawitz, Hans Wolf, Stuart A. 1943- Superconducting State mechanisms and properties International series of monographs on physics Supraleiter (DE-588)4184140-2 gnd Supraleitung (DE-588)4058651-0 gnd
subject_GND	(DE-588)4184140-2 (DE-588)4058651-0
title	Superconducting State mechanisms and properties
title_auth	Superconducting State mechanisms and properties
title_exact_search	Superconducting State mechanisms and properties
title_full	Superconducting State mechanisms and properties Vladimir Z. Kresin ; Hans Morawitz ; Stuart A. Wolf
title_fullStr	Superconducting State mechanisms and properties Vladimir Z. Kresin ; Hans Morawitz ; Stuart A. Wolf
title_full_unstemmed	Superconducting State mechanisms and properties Vladimir Z. Kresin ; Hans Morawitz ; Stuart A. Wolf
title_short	Superconducting State
title_sort	superconducting state mechanisms and properties
title_sub	mechanisms and properties
topic	Supraleiter (DE-588)4184140-2 gnd Supraleitung (DE-588)4058651-0 gnd
topic_facet	Supraleiter Supraleitung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026993433&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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Superconducting State mechanisms and properties

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