Direct Observation of a Long-Range Field Effect from Gate Tuning of Nonlocal Conductivity

Lin Wang; Ignacio Gutiérrez-Lezama; Céline Barreteau; Dong Keun Ki; Enrico Giannini; Alberto F. Morpurgo

doi:10.1103/PhysRevLett.117.176601

Direct Observation of a Long-Range Field Effect from Gate Tuning of Nonlocal Conductivity

Lin Wang, Ignacio Gutiérrez-Lezama, Céline Barreteau, Dong Keun Ki, Enrico Giannini, Alberto F. Morpurgo

University of Geneva

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19 引用（Scopus）

摘要

We report the direct observation of a long-range field effect in WTe2 devices, leading to large gate-induced changes of transport through crystals much thicker than the electrostatic screening length. The phenomenon - which manifests itself very differently from the conventional field effect - originates from the nonlocal nature of transport in the devices that are thinner than the carrier mean free path. We reproduce theoretically the gate dependence of the measured classical and quantum magnetotransport, and show that the phenomenon is caused by the gate tuning of the bulk carrier mobility by changing the scattering at the surface. Our results demonstrate experimentally the possibility to gate tune the electronic properties deep in the interior of conducting materials, avoiding limitations imposed by electrostatic screening.

源语言	英语
文章编号	176601
期刊	Physical Review Letters
卷	117
期	17
DOI	https://doi.org/10.1103/PhysRevLett.117.176601
出版状态	已出版 - 19 10月 2016
已对外发布	是

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abstract = "We report the direct observation of a long-range field effect in WTe2 devices, leading to large gate-induced changes of transport through crystals much thicker than the electrostatic screening length. The phenomenon - which manifests itself very differently from the conventional field effect - originates from the nonlocal nature of transport in the devices that are thinner than the carrier mean free path. We reproduce theoretically the gate dependence of the measured classical and quantum magnetotransport, and show that the phenomenon is caused by the gate tuning of the bulk carrier mobility by changing the scattering at the surface. Our results demonstrate experimentally the possibility to gate tune the electronic properties deep in the interior of conducting materials, avoiding limitations imposed by electrostatic screening.",

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AU - Gutiérrez-Lezama, Ignacio

AU - Barreteau, Céline

AU - Ki, Dong Keun

AU - Giannini, Enrico

AU - Morpurgo, Alberto F.

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N2 - We report the direct observation of a long-range field effect in WTe2 devices, leading to large gate-induced changes of transport through crystals much thicker than the electrostatic screening length. The phenomenon - which manifests itself very differently from the conventional field effect - originates from the nonlocal nature of transport in the devices that are thinner than the carrier mean free path. We reproduce theoretically the gate dependence of the measured classical and quantum magnetotransport, and show that the phenomenon is caused by the gate tuning of the bulk carrier mobility by changing the scattering at the surface. Our results demonstrate experimentally the possibility to gate tune the electronic properties deep in the interior of conducting materials, avoiding limitations imposed by electrostatic screening.

AB - We report the direct observation of a long-range field effect in WTe2 devices, leading to large gate-induced changes of transport through crystals much thicker than the electrostatic screening length. The phenomenon - which manifests itself very differently from the conventional field effect - originates from the nonlocal nature of transport in the devices that are thinner than the carrier mean free path. We reproduce theoretically the gate dependence of the measured classical and quantum magnetotransport, and show that the phenomenon is caused by the gate tuning of the bulk carrier mobility by changing the scattering at the surface. Our results demonstrate experimentally the possibility to gate tune the electronic properties deep in the interior of conducting materials, avoiding limitations imposed by electrostatic screening.

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Direct Observation of a Long-Range Field Effect from Gate Tuning of Nonlocal Conductivity

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