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Showing 1–18 of 18 results
Advanced filters: Author: David P. DiVincenzo Clear advanced filters

  • Quantum error correction protocols aim at protecting quantum information from corruption due to decoherence and imperfect control. Using three superconducting transmon qubits, Chow et al. demonstrate necessary elements for the implementation of the surface error correction code on a two-dimensional lattice.

    • Jerry M. Chow
    • Jay M. Gambetta
    • M Steffen
    Research
    Nature Communications
    Volume: 5, P: 1-9

  • In this alternative approach to quantum computation, the all-electrical operation of two qubits, each encoded in three physical solid-state spin qubits, realizes swap-based universal quantum logic in an extensible physical architecture.

    • Aaron J. Weinstein
    • Matthew D. Reed
    • Matthew G. Borselli
    ResearchOpen Access
    Nature
    Volume: 615, P: 817-822

  • The first real quantum-mechanical computations have now been made. But current techniques cannot be scaled up to produce useful quantum computers. A radical scheme, using semiconductor physics to manipulate nuclear spins, could be the answer.

    • David P. DiVincenzo
    News & Views
    Nature
    Volume: 393, P: 113-114

  • We report organic molecules showing both efficient luminescence and near-unity generation yield of excited states with high spin multiplicity, simultaneously supporting a high efficiency of initialization, spin manipulations and light-based readout at room temperature.

    • Sebastian Gorgon
    • Kuo Lv
    • Emrys W. Evans
    ResearchOpen Access
    Nature
    Volume: 620, P: 538-544

    • David Jones
    News & Views
    Nature
    Volume: 377, P: 390

  • Direct measurement of edge transport in the quantum anomalous Hall effect can be made difficult due to the presence of parallel conductive paths. Here, Mahoney et al. report features associated with chiral edge plasmons, a signature of robust edge states, by probing the zero-field microwave response of a magnetised disk of Cr-(Bi,Sb)2Te3.

    • Alice C. Mahoney
    • James I. Colless
    • David J. Reilly
    ResearchOpen Access
    Nature Communications
    Volume: 8, P: 1-7

  • The standard current–phase relation in tunnel Josephson junctions involves a single sinusoidal term, but real junctions are more complicated. The effects of higher Josephson harmonics have now been identified in superconducting qubit devices.

    • Dennis Willsch
    • Dennis Rieger
    • Ioan M. Pop
    ResearchOpen Access
    Nature Physics
    Volume: 20, P: 815-821

    • David P. DiVincenzo
    Books & Arts
    Nature
    Volume: 399, P: 119-120

  • Superconducting quantum processors need to balance intentional disorder (to protect qubits) and nonlinear resonator coupling (to manipulate qubits), while avoiding chaotic instabilities. Berke et al. use the techniques of many-body localization theory to study the stability of current platforms against quantum chaos.

    • Christoph Berke
    • Evangelos Varvelis
    • David P. DiVincenzo
    ResearchOpen Access
    Nature Communications
    Volume: 13, P: 1-10

  • Molecular design and synthesis, from small molecules to supramolecular assemblies, combined with new spectroscopic probes of quantum coherence and theoretical modelling, offer a broad range of possibilities to realize practical quantum information science applications in computing, communications and sensing.

    • Michael R. Wasielewski
    • Malcolm D. E. Forbes
    • K. Birgitta Whaley
    Reviews
    Nature Reviews Chemistry
    Volume: 4, P: 490-504

  • This Review covers recent progress in quantum technologies with optically addressable solid-state spins. A possible path to chip-scale quantum technologies through advances in nanofabrication, quantum control and materials engineering is described.

    • David D. Awschalom
    • Ronald Hanson
    • Brian B. Zhou
    Reviews
    Nature Photonics
    Volume: 12, P: 516-527