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Nonreciprocal Supercurrents in a Field-Free Graphene Josephson Triode

John Chiles, Ethan G. Arnault, Chun-Chia Chen, Trevyn F. Q. Larson, Lingfei Zhao, Kenji Watanabe, Takashi Taniguchi, François Amet, Gleb Finkelstein

2023Nano Letters53 citationsDOIOpen Access PDF

Abstract

Superconducting diodes are proposed nonreciprocal circuit elements that should exhibit nondissipative transport in one direction while being resistive in the opposite direction. Multiple examples of such devices have emerged in the past couple of years; however, their efficiency is typically limited, and most of them require a magnetic field to function. Here we present a device that achieves efficiencies approaching 100% while operating at zero field. Our samples consist of a network of three graphene Josephson junctions linked by a common superconducting island, to which we refer as a Josephson triode. The three-terminal nature of the device inherently breaks the inversion symmetry, and the control current applied to one of the contacts breaks the time-reversal symmetry. The triode's utility is demonstrated by rectifying a small (nA scale amplitude) applied square wave. We speculate that devices of this type could be realistically employed in the modern quantum circuits.

Topics & Concepts

TriodeJosephson effectPhysicsCondensed matter physicsSuperconductivityPoint reflectionDiodePi Josephson junctionMagnetic fieldSymmetry (geometry)Electronic circuitOptoelectronicsQuantum mechanicsVoltageResistorMathematicsGeometryQuantum and electron transport phenomenaTopological Materials and PhenomenaMechanical and Optical Resonators