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Showing 1–7 of 7 results
Advanced filters: Author: Dan M. Stamper-Kurn Clear advanced filters

  • Nanoscale beams are one platform for exploring quantum-mechanical phenomena in ever-larger systems. The collective motion of a macroscopic ensemble of ultracold atoms confined in an optical cavity is established as an alternative approach.

    • Kater W. Murch
    • Kevin L. Moore
    • Dan M. Stamper-Kurn
    Research
    Nature Physics
    Volume: 4, P: 561-564

  • The effect of quantum radiation-pressure fluctuations on the collective motion of ultracold atoms is observed in a cavity-optomechanical system, and the back-action of this motion on the cavity light field is shown to produce sub-shot-noise optical squeezing.

    • Daniel W. C. Brooks
    • Thierry Botter
    • Dan M. Stamper-Kurn
    Research
    Nature
    Volume: 488, P: 476-480

  • Investigating mesoscopic systems can offer insights into the crossover between few-body and many-body regimes. Atomic arrays inside an optical cavity are now shown to enable the controlled study of critical properties on mesoscopic scales.

    • Jacquelyn Ho
    • Yue-Hui Lu
    • Dan M. Stamper-Kurn
    Research
    Nature Physics
    Volume: 21, P: 1071-1077

  • The power of magnetic resonance imaging for investigating physical and biological systems is well established. Here, it is shown how the sensitivity of cavity atom optics, together with the control provided by atom chips, enables the implementation of a magnetic-resonance-imaging technique that provides a minimally destructive, state-sensitive detection modality for atoms in ultracold gases.

    • Nathan Brahms
    • Thomas P. Purdy
    • Dan M. Stamper-Kurn
    Research
    Nature Physics
    Volume: 7, P: 604-607

  • A single two-dimensional array of atoms trapped in an optical lattice shows a tunable cooperative subradiant optical response, acting as a single-monolayer optical mirror with controllable reflectivity.

    • Jun Rui
    • David Wei
    • Immanuel Bloch
    Research
    Nature
    Volume: 583, P: 369-374

  • Despite the very low temperatures quantum gases are cooled to, the entropy per particle remains larger than that of the condensed-matter systems they are supposed to emulate. Using magnons one can produce low-temperature, low-entropy gases.

    • Ryan Olf
    • Fang Fang
    • Dan M. Stamper-Kurn
    Research
    Nature Physics
    Volume: 11, P: 720-723

  • Coupling two mechanical objects becomes tricky when they are quantum and can interact only through photons. An experiment now demonstrates such an optomechanical system with two separate atomic ensembles in the same optical cavity.

    • Nicolas Spethmann
    • Jonathan Kohler
    • Dan M. Stamper-Kurn
    Research
    Nature Physics
    Volume: 12, P: 27-31