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Showing 1–12 of 12 results
Advanced filters: Author: M. J. Tiggelman Clear advanced filters

  • Superconducting circuits are promising for quantum computing, but quasiparticle tunnelling across Josephson junctions introduces qubit decoherence. Ristè et al. convert a transmon qubit into its own real-time quasiparticle tunnelling detector and accurately measure induced decoherence in the millisecond range.

    • D. Ristè
    • C. C. Bultink
    • L. DiCarlo
    ResearchOpen Access
    Nature Communications
    Volume: 4, P: 1-6

  • Silicon spin qubits can be fabricated in a 300 mm semiconductor manufacturing facility using all-optical lithography and fully industrial processing.

    • A. M. J. Zwerver
    • T. Krähenmann
    • J. S. Clarke
    ResearchOpen Access
    Nature Electronics
    Volume: 5, P: 184-190

  • Two electron spins occupying the outer dots in a linear array of three quantum dots experience a coherent superexchange interaction through the empty middle dot that acts as a quantum mediator.

    • Timothy Alexander Baart
    • Takafumi Fujita
    • Lieven Mark Koenraad Vandersypen
    Research
    Nature Nanotechnology
    Volume: 12, P: 26-30

  • Entanglement of two electron spin qubits in diamond with a spatial separation of three metres is reported; such entanglement can be combined with recently achieved initialization, readout and entanglement operations on local long-lived nuclear spin registers, and paves the way for deterministic long-distance teleportation, quantum repeaters and extended quantum networks.

    • H. Bernien
    • B. Hensen
    • R. Hanson
    Research
    Nature
    Volume: 497, P: 86-90

  • A two-qubit quantum processor in a silicon device is demonstrated, which can perform the Deutsch–Josza algorithm and the Grover search algorithm.

    • T. F. Watson
    • S. G. J. Philips
    • L. M. K. Vandersypen
    Research
    Nature
    Volume: 555, P: 633-637

  • The electron spins in a linear array of three quantum dots can be manipulated, shuttled and read out individually with high fidelity, resembling the functioning principle of a CCD (charge-coupled device).

    • T. A. Baart
    • M. Shafiei
    • L. M. K. Vandersypen
    Research
    Nature Nanotechnology
    Volume: 11, P: 330-334

  • The electron spin in a silicon-based quantum dot can be controlled electrically for as long as several tens of microseconds, which improves the prospects for quantum information processing based on this type of quantum dot.

    • E. Kawakami
    • P. Scarlino
    • L. M. K. Vandersypen
    Research
    Nature Nanotechnology
    Volume: 9, P: 666-670