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Showing 1–8 of 8 results
Advanced filters: Author: Susanne F. Yelin Clear advanced filters

  • Reconfigurable arrays of up to 448 neutral atoms are used to implement and combine the key elements of a universal, fault-tolerant quantum processing architecture and experimentally explore their underlying working mechanisms.

    • Dolev Bluvstein
    • Alexandra A. Geim
    • Mikhail D. Lukin
    ResearchOpen Access
    Nature
    Volume: 649, P: 39-46

  • Digital quantum simulations of Kitaev’s honeycomb model are realized for two-dimensional fermionic systems using a reconfigurable atom-array processor and used to study the Fermi–Hubbard model on a square lattice.

    • Simon J. Evered
    • Marcin Kalinowski
    • Mikhail D. Lukin
    ResearchOpen Access
    Nature
    Volume: 645, P: 341-347

  • Fast and reliable characterisation of quantum systems is a key part of quantum technologies development. Here, the authors propose and demonstrate a way to embed noise characterisation in classical shadow estimation of nonlocal properties, enabling an efficient way to extract information from noisy quantum systems.

    • Hong-Ye Hu
    • Andi Gu
    • Alireza Seif
    ResearchOpen Access
    Nature Communications
    Volume: 16, P: 1-14

  • Quantum simulations of chemistry and materials are challenging due to the complexity of correlated systems. A framework based on reconfigurable qubit architectures and digital–analogue simulations provides a hardware-efficient path forwards.

    • Nishad Maskara
    • Stefan Ostermann
    • Susanne F. Yelin
    ResearchOpen Access
    Nature Physics
    Volume: 21, P: 289-297

  • Andersen et al. have demonstrated a new type of beam steering device based on the excitonic response of an atomically thin semiconductor. Using electrostatic gates, the authors achieved tunable steering with switching times on the nanosecond scale.

    • Trond I. Andersen
    • Ryan J. Gelly
    • Mikhail D. Lukin
    ResearchOpen Access
    Nature Communications
    Volume: 13, P: 1-7

  • Detection of topological phases in experiments is challenging, especially in the presence of incoherent noise. Cong et al. introduce a novel method combining error correction and renormalization-group flow and apply it to characterization of quantum spin liquid phases realized in a Rydberg-atom simulator.

    • Iris Cong
    • Nishad Maskara
    • Mikhail D. Lukin
    ResearchOpen Access
    Nature Communications
    Volume: 15, P: 1-14

  • Controlling the response of a material to light at the single-atom level is a key factor for many quantum technologies. An experiment now shows how to control the optical properties of an atomic array by manipulating the state of a single atom.

    • Rivka Bekenstein
    • Susanne F. Yelin
    News & Views
    Nature Physics
    Volume: 19, P: 619-620