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Infrared single-photon detection with superconducting magic-angle twisted bilayer graphene

Giorgio Di Battista, Kin Chung Fong, A. Díez-Carlón, Kenji Watanabe, Takashi Taniguchi, Dmitri K. Efetov

2024Science Advances16 citationsDOIOpen Access PDF

Abstract

carriers per square centimeter, which is five orders of magnitude lower than traditional superconductors (SCs). This results in an ultralow electronic heat capacity and a large kinetic inductance of this truly two-dimensional SC, providing record-breaking parameters for quantum sensing applications, specifically thermal sensing and single-photon detection. To fully exploit these unique superconducting properties for quantum sensing, here, we demonstrate a proof-of-principle experiment to detect single near-infrared photons by voltage biasing an MATBG device near its superconducting phase transition. We observe complete destruction of the SC state upon absorption of a single infrared photon even in a 16-square micrometer device, showcasing exceptional sensitivity. Our work offers insights into the MATBG-photon interaction and demonstrates pathways to use moiré superconductors as an exciting platform for revolutionary quantum devices and sensors.

Topics & Concepts

SuperconductivityBilayer graphenePhotonGrapheneBiasingCondensed matter physicsInfraredMaterials sciencePhysicsOptoelectronicsNanotechnologyOpticsVoltageQuantum mechanicsQuantum and electron transport phenomenaQuantum Information and CryptographyGraphene research and applications