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Showing 1–4 of 4 results
Advanced filters: Author: G. Anetsberger Clear advanced filters

  • Optomechanical systems in which a high-quality optical resonator is coupled to a mechanical oscillator hold great promise for examining quantum effects in relatively large structures. As a step towards this, a silica microtoroid has now been cooled to the point that it has just 63 thermal quanta.

    • A. Schliesser
    • O. Arcizet
    • T. J. Kippenberg
    Research
    Nature Physics
    Volume: 5, P: 509-514

  • Laser-driven resolved sideband cooling of the resonant vibrational mode of a toroidal microcavity represents another step towards reaching the quantum ground state.

    • A. Schliesser
    • R. Rivière
    • T. J. Kippenberg
    Research
    Nature Physics
    Volume: 4, P: 415-419

  • Coupling a nanometre-scale oscillator to a micrometre-scale optical resonator provides a way of measuring the small-amplitude motion. The scheme is applied to silicon nitride ’strings’, but it could be extended to many other types of tiny vibrating structures.

    • G. Anetsberger
    • O. Arcizet
    • T. J. Kippenberg
    Research
    Nature Physics
    Volume: 5, P: 909-914

  • A design of on-chip optomechanical resonator that simultaneously maximizes a high mechanical Q-factor in the megahertz range and an ultrahigh optical finesse is reported. Studies of the mechanical properties of the cavity achieve the first direct observation of mechanical normal-mode coupling in a micromechanical system.

    • G. Anetsberger
    • R. Rivière
    • T. J. Kippenberg
    Research
    Nature Photonics
    Volume: 2, P: 627-633