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Article Dans Une Revue Physical Review Applied Année : 2023

Super-resolved imaging based on spatiotemporal wavefront shaping

Résumé

A novel approach to improving the performances of confocal scanning imaging is proposed. We experimentally demonstrate its feasibility using acoustic waves. It relies on a new way to encode spatial information using the temporal dimension. By moving an emitter, used to insonify an object, along a circular path, we create a temporally modulated wavefield. Due to the cylindrical symmetry of the problem and its temporal periodicity, the spatiotemporal input field can be decomposed into harmonics corresponding to different spatial vortices, or topological charges. Acquiring the back-reflected waves with receivers which are also rotating, multiple images of the same object with different Point Spread Functions (PSFs) are obtained. Not only is the resolution improved compared to a standard confocal configuration, but the accumulation of information also allows building images beating the diffraction limit. The topological robustness of the approach promises good performances in real life conditions.

Dates et versions

hal-04262560 , version 1 (27-10-2023)

Identifiants

Citer

Guillaume Noetinger, Samuel Metais, Geoffroy Lerosey, Mathias Fink, Sébastien M. Popoff, et al.. Super-resolved imaging based on spatiotemporal wavefront shaping. Physical Review Applied, 2023, 19 (2), pp.024032. ⟨10.1103/PhysRevApplied.19.024032⟩. ⟨hal-04262560⟩
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