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Three-dimensional spatiotemporal focusing of holographic patterns

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  • Oscar Hernandez

    (Wavefront-Engineering Microscopy Group, Neurophotonics Laboratory, CNRS UMR 8250, Paris Descartes University, UFR Biomédicale
    Present address: CNC Program, Stanford University, Stanford, California 94305, USA.)

  • Eirini Papagiakoumou

    (Wavefront-Engineering Microscopy Group, Neurophotonics Laboratory, CNRS UMR 8250, Paris Descartes University, UFR Biomédicale
    Institut national de la santé et de la recherche médicale (Inserm))

  • Dimitrii Tanese

    (Wavefront-Engineering Microscopy Group, Neurophotonics Laboratory, CNRS UMR 8250, Paris Descartes University, UFR Biomédicale)

  • Kevin Fidelin

    (Institut du Cerveau et de la Moelle Épinière)

  • Claire Wyart

    (Institut du Cerveau et de la Moelle Épinière)

  • Valentina Emiliani

    (Wavefront-Engineering Microscopy Group, Neurophotonics Laboratory, CNRS UMR 8250, Paris Descartes University, UFR Biomédicale)

Abstract

Two-photon excitation with temporally focused pulses can be combined with phase-modulation approaches, such as computer-generated holography and generalized phase contrast, to efficiently distribute light into two-dimensional, axially confined, user-defined shapes. Adding lens-phase modulations to 2D-phase holograms enables remote axial pattern displacement as well as simultaneous pattern generation in multiple distinct planes. However, the axial confinement linearly degrades with lateral shape area in previous reports where axially shifted holographic shapes were not temporally focused. Here we report an optical system using two spatial light modulators to independently control transverse- and axial-target light distribution. This approach enables simultaneous axial translation of single or multiple spatiotemporally focused patterns across the sample volume while achieving the axial confinement of temporal focusing. We use the system's capability to photoconvert tens of Kaede-expressing neurons with single-cell resolution in live zebrafish larvae.

Suggested Citation

  • Oscar Hernandez & Eirini Papagiakoumou & Dimitrii Tanese & Kevin Fidelin & Claire Wyart & Valentina Emiliani, 2016. "Three-dimensional spatiotemporal focusing of holographic patterns," Nature Communications, Nature, vol. 7(1), pages 1-11, September.
  • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms11928
    DOI: 10.1038/ncomms11928
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    Cited by:

    1. Giulia Faini & Dimitrii Tanese & Clément Molinier & Cécile Telliez & Massilia Hamdani & Francois Blot & Christophe Tourain & Vincent Sars & Filippo Bene & Benoît C. Forget & Emiliano Ronzitti & Valent, 2023. "Ultrafast light targeting for high-throughput precise control of neuronal networks," Nature Communications, Nature, vol. 14(1), pages 1-18, December.

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