Ultrafast Wavefront Shaping via Space-Time Refraction

Fan, Qingyuan; Shaltout, Amr M.; Groep, Jorik van de; Brongersma, Mark L.; Lindenberg, Aaron M.

doi:10.1021/acsphotonics.3c00498

Cited by 5 publications

References 43 publications

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Ultrafast Modulation of a Nonlocal Semiconductor Metasurface under Spatially Selective Optical Pumping

Shilkin,

Ha,

Paniagua-Domínguez

et al. 2024

Nano Lett.

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Time-varying optical metasurfaces have attracted significant research attention for their ability to dynamically modulate the spectral characteristics of light and achieve effects not possible in static systems. Nonlocal metasurfaces, with their spatially extended resonant modes, have the potential to further expand these capabilities by enabling spatially selective modulation. Here, we experimentally explore the application of spatially structured femtosecond laser pumping to modulate a leaky guided mode in a semiconductor metasurface. Using angle-resolved transient transmission spectroscopy, we study the dynamic response of the system across a range of wavelengths and angles of incidence, observing frequency and momentum conversion. When the pumping location is varied, this technique allows for reconstructing the temporal dynamics of the probe pulse propagating in the metasurface mode. Our results not only demonstrate a versatile toolkit for spatiotemporal light control but also provide fundamental insight into the excitation of spatially extended modes in nonlocal metasurfaces.

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Ultrafast Modulation of a Nonlocal Semiconductor Metasurface under Spatially Selective Optical Pumping

Shilkin,

Ha,

Paniagua-Domínguez

et al. 2024

Nano Lett.

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Ultrafast All-Optical Metasurfaces: Challenges and New Frontiers

Maiuri,

Schirato,

Cerullo

et al. 2024

ACS Photonics

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Dynamic metasurfaces have emerged as a disruptive change in the way the response of optical systems can be tailored by combining the flexibility of flat optics in spatially engineering materials at the nanoscale with the opportunity to reconfigure the metasurfaces’ properties reversibly upon external stimuli over time. In this context, the far-reaching interest in pushing the tuning speed has driven the development of ‘ultrafast all-optical metasurfaces’ in which transient nonlinearities photoinduced by femtosecond laser pulses empower to achieve GHz modulation rates. While holding great promises to unlock forefront applications, the future frontiers of this class of spatiotemporal all-optical metasurfaces are accompanied by formidable challenges. In this Perspective, alongside a brief panorama of the state of the art, we spotlight some of the emerging frontiers for ultrafast light-driven metasurfaces, with special emphasis on the all-optical control of light, the enhancement of light–matter interactions, and the time-variant frequency conversion, in the hope our vision will prompt new ideas and horizons to explore.

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