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Quantum and Semi-classical Percolation and Breakdown in Disordered Solids [electronic resource] /edited by Bikas K. Chakrabarti, Kamal K. Bardhan, Asok K. Sen.

by Chakrabarti, Bikas K [editor.]; Bardhan, Kamal K [editor.]; Sen, Asok K [editor.]; SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Lecture Notes in Physics: 762Publisher: Berlin, Heidelberg : Springer Berlin Heidelberg, 2009.Description: online resource.ISBN: 9783540854289.Subject(s): Physics | Quantum theory | Statistical physics | Condensed matter | Physics | Quantum Physics | Numerical and Computational Methods | Statistical Physics | Condensed MatterOnline resources: Click here to access online
Contents:
Classical Percolation -- Non-linear Response, Semi-Classical Percolation and Breakdown in the RRTN Model -- Quantum Transmittance Through Random Media -- Quantum Percolation in Two Dimensions -- Quantum Percolation in Disordered Structures -- Quantum Percolation in the Quantum Hall Regime -- Percolative Quantum Transport in Manganites -- Classical and quantum breakdown in disordered -- Nonequilibrium Quantum Breakdown in a Strongly Correlated Electron System -- Percolation in quantum computation and.
In: Springer eBooksSummary: This set of extensive tutorial reviews and lectures focusses on the semi-classical and quantum aspects of percolation methods and their application to breakdown phenomena in disordered composite or granular materials. It sets out to connect - for the first time and in a coherent fashion - many recent theoretical and experimental advances in adjacent fields, such as the investigation of nonlinear current-voltage characteristics of 'quantum-dotted' materials or Zener breakdown in Mott or Anderson insulators. Last but not least, a final chapter explores the application of quantum percolation methods to the rapidly emerging field of quantum computing and communication.
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Classical Percolation -- Non-linear Response, Semi-Classical Percolation and Breakdown in the RRTN Model -- Quantum Transmittance Through Random Media -- Quantum Percolation in Two Dimensions -- Quantum Percolation in Disordered Structures -- Quantum Percolation in the Quantum Hall Regime -- Percolative Quantum Transport in Manganites -- Classical and quantum breakdown in disordered -- Nonequilibrium Quantum Breakdown in a Strongly Correlated Electron System -- Percolation in quantum computation and.

This set of extensive tutorial reviews and lectures focusses on the semi-classical and quantum aspects of percolation methods and their application to breakdown phenomena in disordered composite or granular materials. It sets out to connect - for the first time and in a coherent fashion - many recent theoretical and experimental advances in adjacent fields, such as the investigation of nonlinear current-voltage characteristics of 'quantum-dotted' materials or Zener breakdown in Mott or Anderson insulators. Last but not least, a final chapter explores the application of quantum percolation methods to the rapidly emerging field of quantum computing and communication.

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