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Paper detail

Control of electron-electron interaction in graphene by proximity screening

Electron-electron interactions play a critical role in many condensed matter phenomena, and it is tempting to find a way to control them by changing the interactions' strength. One possible approach is to place a studied system in proximity of a metal, which induces additional screening and hence suppresses electron interactions. Here, using devices with atomically-thin gate dielectrics and atomically-flat metallic gates, we measure the electron-electron scattering length in graphene and report qualitative deviations from the standard behavior. The changes induced by screening become important only at gate dielectric thicknesses of a few nm, much smaller than a typical separation between electrons. Our theoretical analysis agrees well with the scattering rates extracted from measurements of electron viscosity in monolayer graphene and of umklapp electron-electron scattering in graphene superlattices. The results provide a guidance for future attempts to achieve proximity screening of many-body phenomena in two-dimensional systems.

preprint2020arXivOpen access
M. KimS. G. XuA. I. BerdyuginA. PrincipiS. SlizovskiyN. XinP. KumaravadivelW. KuangM. HamerR. Krishna KumarR. V. GorbachevK. WatanabeT. TaniguchiI. V. GrigorievaV. I. Fal'koM. PoliniA. K. Geim
cond-mat.mes-hall
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M. KimS. G. XuA. I. BerdyuginA. PrincipiS. SlizovskiyN. XinP. KumaravadivelW. KuangM. HamerR. Krishna KumarR. V. GorbachevK. WatanabeT. TaniguchiI. V. GrigorievaV. I. Fal'koM. PoliniA. K. Geim

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