Kondo Effect and Dephasing in Low-Dimensional Metallic Systems

✍ Scribed by T. M. Jacobs, N. Giordano (auth.), Venkat Chandrasekhar, Chris Van Haesendonck, Alfred Zawadowski (eds.)

Publisher: Springer Netherlands
Year: 2001
Tongue: English
Leaves: 280
Series: NATO Science Series 50
Edition: 1
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

The NATO Advanced Research Workshop took place from 29 May to I June 2000 in the picturesque Hungarian town of Pecs, 220 km south of Budapest. The main goal of the workshop was to review and promote experimental and theoretical research on the problem of Kondo-type scatteringofthe electrons in systems ofreduced dimensionalities. 53 regular participants and 7 observers from 17 different countries attended the workshop. The Kondo effect has been a topic ofintense interest for many years, due in part to its relevance to a variety of other branches of condensed matter physics. In addition to the best known example of magnetic impurities in noble metals, the physics of the Kondo effect is important in many areas of current research, including heavy-fermion physics, correlated electron systems, and high-temperature superconductivity. Of central importance in this problem is the interaction of conduction electrons in the metal with individual magnetic impurities, an interaction which also mediates the interaction ofthe impurities with each other.

✦ Table of Contents

Front Matter....Pages i-xxii
Effect of Disorder on the Kondo Behavior of Thin Cu(Mn) Films....Pages 1-10
The Kondo Effect and Weak Localization....Pages 11-22
Surface Magnetic Anisotropy of Kondo Impurities Induced by Spin-Orbit Scattering....Pages 23-32
Thermopower of Mesoscopic Spin Glasses....Pages 33-42
Shape-Induced Magnetic Anisotropy in Dilute Magnetic Alloys....Pages 43-52
Zero-Bias Transport Anomaly in Metallic Nanobridges....Pages 53-62
Conductance Noise and Irreversibility in Diluted Magnetic Semiconductors....Pages 63-72
Enhancement of Kondo Temperature in Nanometer-Size Point Contacts....Pages 73-85
Scanning Tunnelling Spectroscopy of A Single Kondo Impurity....Pages 87-95
Two-Channel Kondo Effect from Tunneling Impurities....Pages 97-106
Electron Decoherence at Zero Temperature....Pages 107-117
Probing Interactions in Mesoscopic Gold Wires....Pages 119-132
Kondo Effect in Non-Equilibrium....Pages 133-142
Tunneling Through A Quantum Dot....Pages 143-152
Electron Transport Through Quantum Dots: An Unusual Kondo Effect....Pages 153-161
The Kondo Effect in a Single-Electron Transistor....Pages 163-170
Flux Dependent Dielectric Response of Stacked Nanoscopic Rings....Pages 171-174
High-Frequency Response of Two-Level Systems in Ni X Nb 1—X Metallic Point Contacts....Pages 175-180
Giant Magnetoresistance of a Single Interface....Pages 181-184
Fermi Edge Singularities in Transport Through Quantum Dots....Pages 185-188
Theory Of Magnetoresistance in Films of Dilute Magnetic Alloys....Pages 189-192
Current and Shot Noise in a Ferromagnetic Double Tunnel Junction with an Atomic Size Spacer....Pages 193-196
Positive Domain-Wall Magnetoresistance of Ferromagnetic Point Contacts....Pages 197-201
Enhancement of Kondo Effect Due to Spin-Singlet-Triplet Competition in Quantum Dots....Pages 203-206
A Non-Kondo Interpretation of the Experimentally Observed “Kondo Resonances” in Quantum Dots....Pages 207-210
Diagrammatic Theory of the Anderson Impurity Model with Finite Coulomb Interaction....Pages 211-214
Generalized Conductance Sum Rule in Atomic Break Junctions....Pages 215-218
Is CeNiSn a Kondo Semiconductor?....Pages 219-222
The Influence of Single Magnetic Impurities on the Conductance of Quantum Microconstrictions....Pages 223-226
Structural Properties of Colloidal Co Nanoparticles....Pages 227-229
Interacting Electrons in a Nearly Straight Quantum Wire....Pages 231-235
Resonant Tunneling Through an Impurity Level: A Probe of Coherent States in a Disordered Metal....Pages 237-240
Pair Breaking in s-Wave Superconductors by Two-Channel Kondo Impurities....Pages 241-244
Theory of Scanning Tunneling Spectroscopy of Kondo Ions on Metal Surfaces....Pages 245-248
Two-Level Systems in Atomic-Size Point Contacts....Pages 249-252
Is The Multi-Channel Kondo Model Appropriate to Describe Single Electron Transistors?....Pages 253-256
Back Matter....Pages 257-265

✦ Subjects

Condensed Matter Physics; Magnetism, Magnetic Materials; Metallic Materials; Optical and Electronic Materials

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