Preface |
Acknowledgments |
List of Contributors |
Credit Lines |
From Single- to Bipolarons with Jahn-Teller Character and Metallic Cluster-Stripes in Hole-Doped Cuprates / K. A. Muller1: |
The Original Jahn-Teller Polaron Concept and Its Shortcomings / 1.1: |
Recent Experiments Probing Delocalized Properties / 1.2: |
Probing of Local Properties / 1.3: |
The Intersite JT-Bipolaron Concept Derived from EXAFS, EPR, and Neutron Scattering / 1.4: |
Two-Component Scenario / 1.5: |
JT-Bipolarons as the Elementary Quasiparticles to Understand the Phase Diagram and Metallic Clusters or Stripes / 1.6: |
Substantial Oxygen Isotope Effects / 1.7: |
Concluding Remarks / 1.8: |
Bibliography |
Tunneling Measurements of the Cuprate Superconductors / J. R. Kirtley ; F. Tafuri2: |
Introduction / 2.1: |
General Concepts / 2.2: |
Types of Junction Structures / 2.2.1: |
Generalized Junction Conductance / 2.2.2: |
The Tunnel and Proximity Effects / 2.2.3: |
Andreev Reflection and Bound States / 2.2.4: |
The Josephson Effect: General Features / 2.2.5: |
Andreev Reflection in SNS Junctions |
Means of Preparing Tunnel Junctions / 2.3: |
Junctions with Single Crystals / 2.3.1: |
Grain Boundary Junctions / 2.3.2: |
Bicrystal Junctions |
Biepitaxial Junctions |
Step-Edge Junctions |
Electron Beam Junctions |
Junctions with Artificial Barriers / 2.3.3: |
Noble Metal Barriers |
Perovskite and Layered Materials Barriers |
Interface-Engineered Junctions / 2.3.4: |
Junctions with HTS Rather than YBCO / 2.3.5: |
La[subscript 1.85]Sr[subscript 0.15]CuO[subscript 4]-Based Trilayer with One-Unit-Cell-Thick Barrier |
Electron Doped HTS |
Ca and Co Doped YBCO: Insights into the Overdoped Regime |
Ultra-Thin Films and Superlattices |
Intrinsic Stacked Junctions |
[pi]-Rings and 0 - [pi]-Junctions / 2.4: |
Tunneling Spectroscopy / 2.5: |
Superconducting Gap / 2.5.1: |
General Features |
Temperature Dependence |
Momentum Dependence |
Doping Dependence |
Macroscopic Quantum Effects |
Pseudogap / 2.5.2: |
Magnetic Field Dependence |
Linear Conduction Background / 2.5.3: |
Zero-Bias Anomalies / 2.5.4: |
Atomically Resolved Conductivity Modulation Effects / 2.5.5: |
Strong Coupling Effects / 2.5.6: |
Electron-Phonon |
Electron-Magnon |
Conclusions / 2.6: |
Angle-Resolved Photoemission Spectroscopy on Electronic Structure and Electron-Phonon Coupling in Cuprate Superconductors / X. J. Zhou ; T. Cuk ; T. Devereaux ; N. Nagaosa ; Z.-X. Shen3: |
Angle-Resolved Photoemission Spectroscopy / 3.1: |
Principle / 3.2.1: |
Technique / 3.2.2: |
Electronic Structures of High Temperature Superconductors / 3.3: |
Basic Crystal Structure and Electronic Structure / 3.3.1: |
Brief Summary of Some Latest ARPES Results / 3.3.2: |
Electron-Phonon Coupling in High Temperature Superconductors / 3.4: |
Brief Survey of Electron-Phonon Coupling in High-Temperature Superconductors / 3.4.1: |
Electron-Phonon Coupling: Theory / 3.4.2: |
General |
Weak Coupling-Perturbative and Self-Energy Description |
Strong Coupling-Polaron |
Band Renormalization and Quasiparticle Lifetime Effects / 3.4.3.: |
El-Ph Coupling Along the (0,0)-([pi],[pi]) Nodal Direction |
Multiple Modes in the Electron Self-Energy |
El-Ph Coupling Near the ([pi],0) Antinodal Region |
Anisotropic El-Ph Coupling |
Polaronic Behavior / 3.4.4: |
Polaronic Behavior in Parent Compounds |
Doping Dependence: From Z |
Preface |
Acknowledgments |
List of Contributors |
Credit Lines |
From Single- to Bipolarons with Jahn-Teller Character and Metallic Cluster-Stripes in Hole-Doped Cuprates / K. A. Muller1: |
The Original Jahn-Teller Polaron Concept and Its Shortcomings / 1.1: |