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Advanced filters: Author: "Tobias Schaetz" Clear advanced filters

  • Quantum logic gates based on trapped ions perform more accurately than solid-state devices, but have been slower. Experiments show how trapped-ion gates can be sped up, as is needed to realize a quantum computer.

    • Tobias Schaetz
    News & Views
    Nature
    Volume: 555, P: 33-34

  • Control of quantum particles has been extended to enable different types of ion to be entangled — correlated in a non-classical way. This opens up opportunities for the development of new quantum technologies. See Letters p.380 & p.384

    • Tobias Schaetz
    News & Views
    Nature
    Volume: 528, P: 337-338

  • Trapped ions are promising for studies of atomic and quantum physics, but their need for radiofrequency fields poses numerous technical limitations. Huber et al.present an approach using far-off-resonance optical traps, circumventing radiofrequency fields to improve on photon scattering and recoil heating.

    • Thomas Huber
    • Alexander Lambrecht
    • Tobias Schaetz
    Research
    Nature Communications
    Volume: 5, P: 1-7

  • It is well-known that neutral atoms can be trapped using visible light, but the trapping of ions is typically achieved using radiofrequency electromagnetic fields. Researchers have now developed an optical ion trapping technique that may be useful for applications ranging from quantum physics to ultracold chemistry.

    • Ch. Schneider
    • M. Enderlein
    • T. Schaetz
    Research
    Nature Photonics
    Volume: 4, P: 772-775