Microscopic mechanism of 1/f noise in graphene: Role of energy band dispersion

Pal A.N.; Ghatak S.; Kochat V.; Sneha E.S.; Sampathkumar A.; Raghavan S.; Ghosh A.

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Microscopic mechanism of 1/f noise in graphene: Role of energy band dispersion

机译：石墨烯中1 / f噪声的微观机制：能带色散的作用

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A distinctive feature of single-layer graphene is the linearly dispersive energy bands, which in the case of multilayer graphene become parabolic. A simple electrical transport-based probe to differentiate between these two band structures will be immensely valuable, particularly when quantum Hall measurements are difficult, such as in chemically synthesized graphene nanoribbons. Here we show that the flicker noise, or the 1/f noise, in electrical resistance is a sensitive and robust probe to the band structure of graphene. At low temperatures, the dependence of noise magnitude on the carrier density was found to be opposite for the linear and parabolic bands. We explain our data with a comprehensive theoretical model that clarifies several puzzling issues concerning the microscopic origin of flicker noise in graphene field-effect transistors (GraFET).

机译：单层石墨烯的一个显着特征是线性色散能带，在多层石墨烯的情况下，它呈抛物线形。一个简单的基于电传输的，能够区分这两个能带结构的探针将具有巨大的价值，特别是在量子霍尔测量困难时，例如在化学合成的石墨烯纳米带中。在这里，我们表明电阻的闪烁噪声或1 / f噪声是对石墨烯能带结构的敏感而稳健的探针。在低温下，对于线性和抛物线带，噪声大小对载流子密度的依赖性相反。我们用一个综合的理论模型解释了我们的数据，该模型阐明了有关石墨烯场效应晶体管（GraFET）闪烁噪声的微观起源的几个令人困惑的问题。

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《ACS nano》 |2011年第3期|共7页
作者
Pal A.N.; Ghatak S.; Kochat V.; Sneha E.S.; Sampathkumar A.; Raghavan S.; Ghosh A.;
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正文语种 eng
中图分类分子物理学、原子物理学;
关键词
1/f noise; charge impurity scattering; graphene; multilayer; noise;

机译：1 / f噪声;电荷杂质散射;石墨烯;多层;噪声;

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1. Microscopic mechanism of 1/f noise in graphene: Role of energy band dispersion [J] . Pal A.N., Ghatak S., Kochat V., ACS nano . 2011,第3期

机译：石墨烯中1 / f噪声的微观机制：能带色散的作用
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7. Crucial role of atomic corrugation on the flat bands and energy gaps of twisted bilayer graphene at the magic angle θ∼1.08∘ [O] . Procolo Lucignano, Dario Alfè, Vittorio Cataudella, 2019

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Microscopic mechanism of 1/f noise in graphene: Role of energy band dispersion

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