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Time reversed optical waves by arbitrary vector spatiotemporal field generation

Author

Listed:
  • Mickael Mounaix

    (The University of Queensland)

  • Nicolas K. Fontaine

    (Nokia Bell Labs)

  • David T. Neilson

    (Nokia Bell Labs)

  • Roland Ryf

    (Nokia Bell Labs)

  • Haoshuo Chen

    (Nokia Bell Labs)

  • Juan Carlos Alvarado-Zacarias

    (Nokia Bell Labs)

  • Joel Carpenter

    (The University of Queensland)

Abstract

Lossless linear wave propagation is symmetric in time, a principle which can be used to create time reversed waves. Such waves are special “pre-scattered” spatiotemporal fields, which propagate through a complex medium as if observing a scattering process in reverse, entering the medium as a complicated spatiotemporal field and arriving after propagation as a desired target field, such as a spatiotemporal focus. Time reversed waves have previously been demonstrated for relatively low frequency phenomena such as acoustics, water waves and microwaves. Many attempts have been made to extend these techniques into optics. However, the much higher frequencies of optics make for very different requirements. A fully time reversed wave is a volumetric field with arbitrary amplitude, phase and polarisation at every point in space and time. The creation of such fields has not previously been possible in optics. We demonstrate time reversed optical waves with a device capable of independently controlling all of light’s classical degrees of freedom simultaneously. Such a class of ultrafast wavefront shaper is capable of generating a sequence of arbitrary 2D spatial/polarisation wavefronts at a bandwidth limited rate of 4.4 THz. This ability to manipulate the full field of an optical beam could be used to control both linear and nonlinear optical phenomena.

Suggested Citation

  • Mickael Mounaix & Nicolas K. Fontaine & David T. Neilson & Roland Ryf & Haoshuo Chen & Juan Carlos Alvarado-Zacarias & Joel Carpenter, 2020. "Time reversed optical waves by arbitrary vector spatiotemporal field generation," Nature Communications, Nature, vol. 11(1), pages 1-7, December.
  • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-19601-3
    DOI: 10.1038/s41467-020-19601-3
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    Cited by:

    1. Martin Plöschner & Marcos Maestre Morote & Daniel Stephen Dahl & Mickael Mounaix & Greta Light & Aleksandar D. Rakić & Joel Carpenter, 2022. "Spatial tomography of light resolved in time, spectrum, and polarisation," Nature Communications, Nature, vol. 13(1), pages 1-10, December.

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