Nonlinear Quantum Coherence Effects in Driven Mesoscopic Systems

V.E.Kravtsov

arXiv:cond-mat/0504671·cond-mat.mes-hall·May 23, 2007

Nonlinear Quantum Coherence Effects in Driven Mesoscopic Systems

V.E.Kravtsov

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TL;DR

This paper extends perturbation theory to analyze nonlinear and non-equilibrium quantum effects in mesoscopic disordered systems, providing insights into phenomena like quantum rectification and dynamic localization.

Contribution

It introduces a method to apply diffuson-cooperon perturbation theory to nonlinear and non-equilibrium quantum phenomena in mesoscopic systems.

Findings

01

Demonstrates quantum rectification in mesoscopic rings

02

Shows dynamic localization in quantum dots

03

Extends perturbation theory to time and frequency domains

Abstract

In these pedagogical notes the diffuson-cooperon perturbation theory of weak localization and mesoscopic phenomena is extended to describe non-equilibrium and nonlinear effects in quantum disordered systems. It is shown how such perturbation theory works in the time and frequency domain for essentially nonlinear phenomena. Examples of quantum rectification in a mesoscopic ring and the dynamic localization in quantum dots are discussed in detail.

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Taxonomy

TopicsQuantum optics and atomic interactions · Mechanical and Optical Resonators · Quantum Information and Cryptography