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Superballistic conduction in hydrodynamic antidot graphene superlattices
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Superballistic conduction in hydrodynamic antidot graphene superlattices
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Viscous electron flow exhibits exotic signatures such as superballistic conduction. In order to observe hydrodynamics effects, a 2D device where the current flow is as inhomogeneous as possible is desirable. To this end, we build three antidot graphene superlattices with different hole diameters. We measure their electrical properties at various temperatures and under the effect of a perpendicular magnetic field. We find an enhanced superballistic effect, suggesting the effectiveness of the geometry at bending the electron flow. In addition, superballistic conduction, which is related to a transition from a non-collective to a collective regime of transport, behaves non-monotonically with the magnetic field. We also analyze the device resistance as a function of the size of the antidot superlattice to find characteristic scaling laws describing the different transport regimes. We prove that the antidot superlattice is a convenient geometry for realizing hydrodynamic flow and provide valuable explanations for the technologically relevant effects of superballistic conduction and scaling laws.
Forward citations
Cited by 1 Pith paper
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Superballistic paradox in electron fluids: Evidence of tomographic transport
Tomographic dynamics with only head-on collisions explains superballistic conduction at low temperatures in electron fluids by treating electrons as fermions rather than classical particles.
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