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Showing 1–14 of 14 results
Advanced filters: Author: Michael J. Biercuk Clear advanced filters

  • Quantum systems are subject to random phase errors that can dramatically affect the fidelity of a desired quantum operation or measurement, but existing quantum error correction techniques have large resource requirements, motivating a search for alternative strategies. The authors experimentally validate the use of the dynamical decoupling technique to suppress qubit error rates, using novel optimized pulse sequences that suppress errors by orders of magnitude compared to other existing sequences.

    • Michael J. Biercuk
    • Hermann Uys
    • John J. Bollinger
    Research
    Nature
    Volume: 458, P: 996-1000

  • Control engineering techniques are promising for realizing stable quantum systems to counter their extreme fragility. Here the authors use techniques from machine learning to enable real-time feedback suppression of decoherence in a trapped ion qubit by predicting its future stochastic evolution.

    • Sandeep Mavadia
    • Virginia Frey
    • Michael J. Biercuk
    ResearchOpen Access
    Nature Communications
    Volume: 8, P: 1-6

  • Noise filters based on so-called dynamical decoupling pulse sequences can suppress decoherence in quantum systems. Turning this idea on its head now provides a new technique for studying the noise itself.

    • Michael J. Biercuk
    News & Views
    Nature Physics
    Volume: 7, P: 525-526

  • Quantum-control pulse sequences can suppress errors and significantly extend the lifetimes of spin-based quantum bits in solid-state devices.

    • Michael J. Biercuk
    • David J. Reilly
    News & Views
    Nature Nanotechnology
    Volume: 6, P: 9-11

  • Bringing atom-interferometric quantum sensors out of the lab requires the mitigation of several sources of noise. Here, the authors experimentally demonstrate a software-based mitigation method based on tailored error-robust Bragg light-pulse beamsplitters and mirrors.

    • Jack C. Saywell
    • Max S. Carey
    • Michael J. Biercuk
    ResearchOpen Access
    Nature Communications
    Volume: 14, P: 1-10

  • Control of qubits’ frequency response by dynamical decoupling is usually vexed by control’s out-of-band harmonics, a problem known in metrology as “spectral leakage”. Here, the authors reduce this problem by orders of magnitude exploiting discrete prolate spheroidal sequences to control a trapped-ion qubit.

    • V. M. Frey
    • S. Mavadia
    • M. J. Biercuk
    ResearchOpen Access
    Nature Communications
    Volume: 8, P: 1-8

  • Future quantum computers need quantum memories that store arbitrary states for long periods, without incurring significant access latencies. Using high-order dynamical decoupling sequences, this work shows a practical scheme to suppress physical errors and guarantee high-fidelity storage for long times.

    • Kaveh Khodjasteh
    • Jarrah Sastrawan
    • Lorenza Viola
    Research
    Nature Communications
    Volume: 4, P: 1-8

  • Quantum technologies are extremely sensitive to environmental disturbance. Control techniques inspired by classical systems engineering allow selective filtering of the noise spectrum, suppressing time-varying noise over defined frequency bands.

    • A. Soare
    • H. Ball
    • M. J. Biercuk
    Research
    Nature Physics
    Volume: 10, P: 825-829