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Nature of the 1/f Noise in Graphene, Direct Evidence for the Mobility Fluctuations Mechanism

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arxiv 2111.04119 v1 pith:ZEWMIW4A submitted 2021-11-07 cond-mat.mes-hall

Nature of the 1/f Noise in Graphene, Direct Evidence for the Mobility Fluctuations Mechanism

classification cond-mat.mes-hall
keywords noisefluctuationsgraphenemobilityelectronicmechanismcurrentdirect
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The nature of the low-frequency current fluctuations, i.e. carrier number vs. mobility, defines the strategies for noise reduction in electronic devices. While the 1/f noise in metals has been attributed to the electron mobility fluctuations, the direct evidence is lacking (f is the frequency). Here we measured noise in h-BN encapsulated graphene transistor under the condition of geometrical magnetoresistance to directly assess the mechanism of low-frequency electronic current fluctuations. It was found that the relative noise spectral density of the graphene resistance fluctuations depends non-monotonically on the magnetic field (B) with a minimum at approximately uB=1 (u is the electron mobility). This observation proves unambiguously that the mobility fluctuations are the dominant mechanism of the electronic noise in high-quality graphene. Our results are important for all proposed applications of graphene in electronics and add to the fundamental understanding of the 1/f noise origin in any electronic device.

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