Amphithéâtre Maurice Halbwachs, Site Marcelin Berthelot
    En libre accès, dans la limite des places disponibles
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    Résumé

    Optically active spins in solids are strong candidates for scalable devices towards quantum networks. Semiconductor quantum dots set the state-of-the-art as single-photon sources with high level tuneability, brightness, and indistinguishability. In parallel, their inherently mesoscopic nature leads to a unique realisation of a tripartite interface between light, an electron spin and a nuclear spin ensemble. Controlling these interactions create opportunities to realize a controllable central spin system. I will present a journey from treating the nuclei as nuisance to observing their collective states and eventually to their function as a quantum register to store quantum information, all tailored via an electron driven by light.

    Mete Atatüre

    Mete Atatüre

    Mete Atatüre is a Professor of Physics and the Head of the Cavendish Laboratory, Cambridge. He completed his PhD at Boston University in 2002 and then worked as a Postdoctoral Fellow at ETH Zurich. He joined the Cavendish Laboratory in 2007 as an Assistant Professor and received his full Professorship in 2015. His research efforts straddle multiple material platforms for quantum networks and quantum sensing. He is the co-founder and Scientific Advisor of Nu Quantum Ltd. developing quantum network solutions. He is a Fellow of Optica, Academia Europaea, Institute of Physics, and Science Academy Turkey. He was awarded the IoP Thomas Young Medal and Prize in 2020 and the 2024 Koc Medal of Science for his contributions in quantum technologies.

    Intervenant(s)

    Mete Atatüre

    Professor, Professor of Physics, University of Cambridge

    Événements

    Voir aussi

    Cours en relation avec le séminaire : Technologies quantiques émergentes
    Pascale Senellart, chaire Innovation technologique Liliane Bettencourt
    Technologies quantiques émergentes