Bibliographic Information

Quantum dynamics of submicron structures

edited by Hilda A. Cerdeira, Bernhard Kramer, and Gerd Schön

(NATO ASI series, Series E . Applied sciences ; no. 291)

Kluwer Academic, 1995

Available at  / 17 libraries

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"Proceedings of the NATO Advanced Research Workshop on Submicron Quantum Dynamics, Trieste, Italy, June 13-July 1, 1994" -- T.p. verso

Includes bibliographical references and index

Description and Table of Contents

Description

Techniques for the preparation of condensed matter systems have advanced considerably in the last decade, principally due to the developments in microfabrication technologies. The widespread availability of millikelvin temperature facilities also led to the discovery of a large number of new quantum phenomena. Simultaneously, the quantum theory of small condensed matter systems has matured, allowing quantitative predictions. The effects discussed in Quantum Dynamics of Submicron Structures include typical quantum interference phenomena, such as the Aharonov-Bohm-like oscillations of the magnetoresistance of thin metallic cylinders and rings, transport through chaotic billiards, and such quantization effects as the integer and fractional quantum Hall effect and the quantization of the conductance of point contacts in integer multiples of the `conductance quantum'. Transport properties and tunnelling processes in various types of normal metal and superconductor tunnelling systems are treated. The statistical properties of the quantum states of electrons in spatially inhomogeneous systems, such as a random, inhomogeneous magnetic field, are investigated. Interacting systems, like the Luttinger liquid or electrons in a quantum dot, are also considered. Reviews are given of quantum blockade mechanisms for electrons that tunnel through small junctions, like the Coulomb blockade and spin blockade, the influence of dissipative coupling of charge carriers to an environment, and Andreev scattering. Coulomb interactions and quantization effects in transport through quantum dots and in double-well potentials, as well as quantum effects in the motion of vortices, as in the Aharonov-Casher effect, are discussed. The status of the theory of the metal-insulator and superconductor-insulator phase transitions in ordered and disordered granular systems are reviewed as examples in which such quantum effects are of great importance.

Table of Contents

Preface. 1. Random Magnetic Field. 2. Mesoscopic Fluctuations. 3. Quantum Hall States. 4. Interactions. 5. Quantum Dots. 6. Time--Dependent Phenomena. 7. Mesoscopic Superconductors. 8. Superconducting Networks. 9. Tunneling and Transport. Author Index. Subject Index.

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