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Para-hydrodynamics from weak surface scattering in ultraclean thin flakes

Yotam Wolf, A. Aharon-Steinberg, Binghai Yan, Tobias Holder

2023Nature Communications14 citationsDOIOpen Access PDF

Abstract

Abstract Electron hydrodynamics typically emerges in electron fluids with a high electron–electron collision rate. However, new experiments with thin flakes of WTe 2 have revealed that other momentum-conserving scattering processes can replace the role of the electron–electron interaction, thereby leading to a novel, so-called para-hydrodynamic regime. Here, we develop the kinetic theory for para-hydrodynamic transport. To this end, we consider a ballistic electron gas in a thin three-dimensional sheet where the momentum-relaxing (lmr) and momentum-conserving (lmc) mean free paths are decreased due to boundary scattering from a rough surface. The resulting effective mean free path of the in-plane components of the electronic flow is then expressed in terms of microscopic parameters of the sheet boundaries, predicting that a para-hydrodynamic regime with lmr ≫ lmc emerges generically in ultraclean three-dimensional materials. Using our approach, we recover the transport properties of WTe 2 in the para-hydrodynamic regime in good agreement with existing experiments.

Topics & Concepts

ScatteringElectronMean free pathPhysicsElectron scatteringMomentum (technical analysis)Surface (topology)Kinetic energyThin filmFree electron modelBoundary (topology)Condensed matter physicsMechanicsClassical mechanicsOpticsQuantum mechanicsGeometryMathematical analysisMathematicsFinanceEconomicsQuantum and electron transport phenomenaElectronic and Structural Properties of OxidesTopological Materials and Phenomena
Para-hydrodynamics from weak surface scattering in ultraclean thin flakes | Litcius