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Showing 1–5 of 5 results
Advanced filters: Author: F. Massel Clear advanced filters

  • Radiation pressure can control the motion of a nanoscale resonator, but pushing this to the quantum limit is difficult because the influence of a single photon is tiny. Here, the authors boost the radiation–pressure interaction by six orders of magnitude using a Josephson junction qubit

    • J.-M. Pirkkalainen
    • S.U. Cho
    • M.A. Sillanpää
    ResearchOpen Access
    Nature Communications
    Volume: 6, P: 1-6

    • F. GOODRIDGE
    Books & Arts
    Nature
    Volume: 224, P: 1134-1135

  • Intrinsic material nonlinearities in suspended graphene generate tunable intermodal coupling that can be used to cool or amplify thermal-mechanical motion in a manner akin to cavity optomechanics.

    • R. De Alba
    • F. Massel
    • J. M. Parpia
    Research
    Nature Nanotechnology
    Volume: 11, P: 741-746

  • Quantum entanglement is demonstrated in a system of massive micromechanical oscillators coupled to a microwave-frequency electromagnetic cavity by driving the devices into a steady state that is entangled.

    • C. F. Ockeloen-Korppi
    • E. Damskägg
    • M. A. Sillanpää
    Research
    Nature
    Volume: 556, P: 478-482

  • Use of nanomechanical resonators has the potential to offer microwave amplification with the minimum possible added noise, namely that due to quantum fluctuations.

    • F. Massel
    • T. T. Heikkilä
    • M. A. Sillanpää
    Research
    Nature
    Volume: 480, P: 351-354