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Showing 1–5 of 5 results
Advanced filters: Author: "W. K. Hensinger" Clear advanced filters

  • Microfabricated ion traps offer a promising platform for scalable ion quantum computing systems. Sterling et al.realize a two-dimensional ion-trap lattice on a microchip using a new fabrication method that allows very-high voltages to be applied to the chip, enabling very deep ion traps.

    • R. C. Sterling
    • H. Rattanasonti
    • W. K. Hensinger
    Research
    Nature Communications
    Volume: 5, P: 1-6

  • A possible route to scalability of trapped-ion-based quantum computing platforms is to connect multiple modules where ions can be shuttled across different registers. Here, the authors demonstrate fast and low-loss transfer of trapped ions between two microchip modules.

    • M. Akhtar
    • F. Bonus
    • W. K. Hensinger
    ResearchOpen Access
    Nature Communications
    Volume: 14, P: 1-8

  • A microchip-based quantum computer has been built incorporating an architecture in which calculations are carried out by shuttling atomic ions. The device exhibits excellent performance and potential for scaling up.

    • Winfried K. Hensinger
    News & Views
    Nature
    Volume: 592, P: 190-191

  • A new type of ion-trap quantum technology has been developed that uses microwave radiation to perform computations. It will considerably simplify the practical implementation of large-scale quantum computers. See Letters p.181 & p.185

    • Winfried K. Hensinger
    News & Views
    Nature
    Volume: 476, P: 155-156

  • Ion traps enable the precise control and manipulation of the quantum state of a trapped ion. This Technical Review discusses the way in which ion-trap microchips can be fabricated and integrated with advanced on-chip features for implementing practical quantum technologies.

    • Zak David Romaszko
    • Seokjun Hong
    • Winfried Karl Hensinger
    Reviews
    Nature Reviews Physics
    Volume: 2, P: 285-299