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Showing 1–10 of 10 results
Advanced filters: Author: Allard P. Mosk Clear advanced filters

  • The concept of scattering invariant modes is introduced to produce the same transmitted field profiles through a multiple scattering sample and a reference medium. Their correlations with the ballistic light can be used to improve imaging inside scattering materials.

    • Pritam Pai
    • Jeroen Bosch
    • Allard P. Mosk
    Research
    Nature Photonics
    Volume: 15, P: 431-434

  • Researchers demonstrate active control over the spatial distributions of surface plasmon electromagnetic fields by using a digital spatial light modulator to manipulate the phase of the waves. Digital addressing of surface plasmons, which avoids the use of slow mechanical components, is hoped to enable new directions for imaging, sensing and data storage.

    • Bergin Gjonaj
    • Jochen Aulbach
    • Ad Lagendijk
    Research
    Nature Photonics
    Volume: 5, P: 360-363

  • The image of a fluorescent object hidden behind an opaque layer can be retrieved non-invasively by exploiting the correlation properties of the speckle pattern produced by illuminating the object through the layer using laser light.

    • Jacopo Bertolotti
    • Elbert G. van Putten
    • Allard P. Mosk
    Research
    Nature
    Volume: 491, P: 232-234

  • A correlation method that combines ultrasound and fluorescence enables imaging in strongly scattering environments.

    • Allard P. Mosk
    News & Views
    Nature Photonics
    Volume: 14, P: 466-467

  • Wavefront shaping can reduce uncertainties due to measurement noise through disordered media—key to many imaging applications. Optimal precision can be achieved using light fields that are eigenstates of an operator related to the medium’s scattering matrix.

    • Dorian Bouchet
    • Stefan Rotter
    • Allard P. Mosk
    Research
    Nature Physics
    Volume: 17, P: 564-568

  • Scattering of light is usually seen as an impediment to focusing and imaging. This article reviews the recent progress of how strongly scattering media can be used to focus, shape and compress waves by controlling the many degrees of freedom in the incident waves.

    • Allard P. Mosk
    • Ad Lagendijk
    • Mathias Fink
    Reviews
    Nature Photonics
    Volume: 6, P: 283-292

  • Multiple scattering fundamentally complicates the task of sending light through turbid media, as many applications require. This Review summarizes the theoretical framework and experimental techniques to understand and control these processes.

    • Hui Cao
    • Allard Pieter Mosk
    • Stefan Rotter
    Reviews
    Nature Physics
    Volume: 18, P: 994-1007