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Nonequilibrium fluctuations as a distinctive feature of weak localization.


ABSTRACT: Two-dimensional materials, such as graphene, topological insulators, and two-dimensional electron gases, represent a technological playground to develop coherent electronics. In these systems, quantum interference effects, and in particular weak localization, are likely to occur. These coherence effects are usually characterized by well-defined features in dc electrical transport, such as a resistivity increase and negative magnetoresistance below a crossover temperature. Recently, it has been shown that in magnetic and superconducting compounds, undergoing a weak-localization transition, a specific low-frequency 1/f noise occurs. An interpretation in terms of nonequilibrium universal conductance fluctuations has been given. The universality of this unusual electric noise mechanism has been here verified by detailed voltage-spectral density investigations on ultrathin copper films. The reported experimental results validate the proposed theoretical framework, and also provide an alternative methodology to detect weak-localization effects by using electric noise spectroscopy.

SUBMITTER: Barone C 

PROVIDER: S-EPMC4448654 | biostudies-literature | 2015

REPOSITORIES: biostudies-literature

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Nonequilibrium fluctuations as a distinctive feature of weak localization.

Barone C C   Romeo F F   Pagano S S   Attanasio C C   Carapella G G   Cirillo C C   Galdi A A   Grimaldi G G   Guarino A A   Leo A A   Nigro A A   Sabatino P P  

Scientific reports 20150529


Two-dimensional materials, such as graphene, topological insulators, and two-dimensional electron gases, represent a technological playground to develop coherent electronics. In these systems, quantum interference effects, and in particular weak localization, are likely to occur. These coherence effects are usually characterized by well-defined features in dc electrical transport, such as a resistivity increase and negative magnetoresistance below a crossover temperature. Recently, it has been s  ...[more]

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