Titlebook: Mesoscopic Quantum Hall Effect; Ivan Levkivskyi Book 2012 Springer-Verlag Berlin Heidelberg 2012 Aharonov-Bohm Effect.Anyonic Statistics.B

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书目名称Mesoscopic Quantum Hall Effect影响因子(影响力)




书目名称Mesoscopic Quantum Hall Effect影响因子(影响力)学科排名




书目名称Mesoscopic Quantum Hall Effect网络公开度




书目名称Mesoscopic Quantum Hall Effect网络公开度学科排名




书目名称Mesoscopic Quantum Hall Effect被引频次




书目名称Mesoscopic Quantum Hall Effect被引频次学科排名




书目名称Mesoscopic Quantum Hall Effect年度引用




书目名称Mesoscopic Quantum Hall Effect年度引用学科排名




书目名称Mesoscopic Quantum Hall Effect读者反馈




书目名称Mesoscopic Quantum Hall Effect读者反馈学科排名

Brittle

Equilibrium and Non-Equilibrium Bosonizationization approach. Then we compute the equilibrium correlation functions of interacting fermions in the framework of this approach. Finally, we generalize the bosonization technique to the non-equilibrium situation and introduce a new method—the non-equilibrium bosonization, which will be used in several chapters of this thesis.

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Interaction Induced Dephasing of Edge Statesty and the period of its oscillations as a function of voltage bias. Moreover, the variation of the lobe structure from one experiment to another is explained by specific charging effects, which are different in all experiments.

阻挡

Introduction, and fractional statistics, etc. The low energy physics of the quantum Hall effect is determined by edge excitations, because there exists a gap for excitations in the bulk of the two-dimensional gas. In this chapter we make a review of the quantum Hall physics and focus on the edge states.

拥护

Noise Induced Dephasing of Edge Statese large-bias regime, high-order cumulants of current add up to cancel the dilution effect of a quantum point contact. This leads to an abrupt change in the dependence of the visibility on voltage bias which occurs at the transparency T=1/2 of quantum point contact. Quantum fluctuations in the vicinity of this point smear out the sharp transition.

HERTZ

Summary of Resultsuced dephasing, and equilibration along the quantum Hall edge channels. This investigation allowed us to explain several experiments, to make some experimental proposals and to resolve certain theoretical problems as summarized below.

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2190-5053 e phenomena.Endorsed by MIT expert as a "landmark achievemen.In recent years, remarkable progress in the fabrication of novel mesoscopic devices has produced a revival of interest in quantum Hall physics.  New types of measurements, more precise and efficient than ever, have made it possible to focu

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Energy Relaxation at the Quantum Hall Edgeitial “double-step” distribution evolves through several intermediate asymptotics, before reaching eventual equilibrium state. We suggest that the missing energy paradox may be explained by the nonlinear dispersion of the spectrum of edge states.

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